Curriculum Resources
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NY.C.PHYSICAL SETTING / CHEMISTRY

PHYSICAL SETTING / CHEMISTRY
C.1. Analysis, Inquiry, and Design: Students will use mathematical analysis, scientific inquiry, and engineering design, as appropriate, to pose questions, seek answers, and develop solutions.
C.1.M1. MATHEMATICAL ANALYSIS: Abstraction and symbolic representation are used to communicate mathematically.
1.M1.1. Use algebraic and geometric representations to describe and compare data.
1.M1.1.i. Organize, graph, and analyze data gathered from laboratory activities or other sources: identify independent and dependent variables.
Virtual Lab Gas Laws
 
1.M1.1.ii. Organize, graph, and analyze data gathered from laboratory activities or other sources: create appropriate axes with labels and scale.
Virtual Lab Gas Laws
 
1.M1.1.iii. Organize, graph, and analyze data gathered from laboratory activities or other sources: identify graph points clearly.
Virtual Lab Gas Laws
 
1.M1.1.iv. Measure and record experimental data and use data in calculations: choose appropriate measurement scales and use units in recording.
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Forces and Motion
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Mirrors and Lenses
Virtual Lab Speed of Sound
 
1.M1.1.v. Measure and record experimental data and use data in calculations: show mathematical work, stating formula and steps for solution.
Multimedia Lesson Energy: Forms and Changes
 
1.M1.1.vii. Measure and record experimental data and use data in calculations: use appropriate equations and significant digits.
Multimedia Lesson Energy: Forms and Changes
 
1.M1.1.xii. Recognize and convert various scales of measurement: Length - kilometers (km); meters (m); centimeters (cm); millimeters (mm).
Multimedia Lesson Light and Optics
Virtual Lab Mirrors and Lenses
 
1.M1.1.xiii. Recognize and convert various scales of measurement: Mass - grams (g); kilograms (kg).
Multimedia Lesson Energy: Forms and Changes
Presentations Measuring Matter
 
1.M1.1.xiv. Recognize and convert various scales of measurement: Pressure - kilopascal (kPa); atmosphere (atm).
Quiz, Flash Cards, Worksheet, Game Gases
Quiz, Flash Cards, Worksheet, Game Matter and Energy
Quiz, Flash Cards, Worksheet, Game Properties of Matter
 
1.M1.1.xv. Use knowledge of geometric arrangements to predict particle properties or behavior.
Multimedia Lesson Atoms and Chemical Bonding
Virtual Lab Flame Test
Presentations Models of the Atom
Quiz, Flash Cards, Worksheet, Game Atomic Structure - Set I
Quiz, Flash Cards, Worksheet, Game Atomic Structure - Set II
 
C.1.M2. MATHEMATICAL ANALYSIS: Deductive and inductive reasoning are used to reach mathematical conclusions.
1.M2.1. Use deductive reasoning to construct and evaluate conjectures and arguments, recognizing that patterns and relationships in mathematics assist them in arriving at these conjectures and arguments.
1.M2.1.i. Interpret a graph constructed from experimentally obtained data: identify relationships - direct; inverse.
Virtual Lab Gas Laws
 
1.M2.1.ii. Interpret a graph constructed from experimentally obtained data: apply data showing trends to predict information.
Virtual Lab Gas Laws
 
C.1.M3. MATHEMATICAL ANALYSIS: Critical thinking skills are used in the solution of mathematical problems.
1.M3.1. Apply algebraic and geometric concepts and skills to the solution of problems.
1.M3.1.i. State assumptions which apply to the use of a particular mathematical equation and evaluate these assumptions to see if they have been met.
Multimedia Lesson Atoms and Chemical Bonding
Multimedia Lesson Chemical Reactions
Interactive/Simulation Chemical and Physical Changes
Interactive/Simulation Chemical Bonding
Interactive/Simulation Electron Configuration
Interactive/Simulation Identifying Elements
Interactive/Simulation Metals, Nonmetals and Metalloids
Interactive/Simulation States of Matter
Interactive/Simulation Types of Reactions
Virtual Lab Gas Laws
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game States of Matter
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
C.1.S1. SCIENTIFIC INQUIRY: The central purpose of scientific inquiry is to develop explanations of natural phenomena in a continuing, creative process.
1.S1.1. Elaborate on basic scientific and personal explanations of natural phenomena, and develop extended visual models and mathematical formulations to represent thinking.
1.S1.1.i. Use theories and/or models to represent and explain observations.
Multimedia Lesson Atoms and Chemical Bonding
Multimedia Lesson Chemical Reactions
Presentations Balancing Equations
Presentations Chemical Reactions
Presentations Energy in Reactions
Presentations Models of the Atom
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game Chemical Equations
Quiz, Flash Cards, Worksheet, Game Chemical Formulas and Bonding
Quiz, Flash Cards, Worksheet, Game Chemical Reactions
Quiz, Flash Cards, Worksheet, Game Measurements and Calculations
Quiz, Flash Cards, Worksheet, Game States of Matter
Quiz, Flash Cards, Worksheet, Game The Mole
 
1.S1.1.ii. Use theories and/or principles to make predictions about natural phenomena.
Multimedia Lesson Atoms and Chemical Bonding
Multimedia Lesson Chemical Reactions
Virtual Lab Gas Laws
Presentations Balancing Equations
Presentations Chemical Reactions
Presentations Models of the Atom
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game Chemical Equations
Quiz, Flash Cards, Worksheet, Game Chemical Formulas and Bonding
Quiz, Flash Cards, Worksheet, Game Chemical Reactions
Quiz, Flash Cards, Worksheet, Game Measurements and Calculations
Quiz, Flash Cards, Worksheet, Game States of Matter
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
1.S1.3. Work towards reconciling competing explanations, clarifying points of agreement and disagreement.
1.S1.3.i. Evaluate the merits of various scientific theories and indicate why one theory was accepted over another.
Multimedia Lesson Atoms and Chemical Bonding
Presentations Models of the Atom
 
C.1.S2. SCIENTIFIC INQUIRY: Beyond the use of reasoning and consensus, scientific inquiry involves the testing of proposed explanations involving the use of conventional techniques and procedures and usually requiring considerable ingenuity.
1.S2.1. Devise ways of making observations to test proposed explanations.
1.S2.1.i. Design and/or carry out experiments, using scientific methodology to test proposed calculations.
Multimedia Lesson Sound
Virtual Lab Speed of Sound
 
1.S2.4. Carry out a research plan for testing explanations, including selecting and developing techniques, acquiring and building apparatus, and recording observations as necessary.
1.S2.4.i. Determine safety procedures to accompany a research plan
Quiz, Flash Cards, Worksheet, Game Lab Investigations
 
C.1.S3. SCIENTIFIC INQUIRY: The observations made while testing proposed explanations, when analyzed using conventional and invented methods, provide new insights into phenomena.
1.S3.1. Use various means of representing and organizing observations (e.g., diagrams, tables, charts, graphs, equations, and matrices) and insightfully interpret the organized data.
1.S3.1.i. Organize observations in a data table, analyze the data for trends or patterns, and interpret the trends or patterns, using scientific concepts.
Multimedia Lesson Forces and Motion
Multimedia Lesson Sound
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Gas Laws
Virtual Lab Speed of Sound
 
1.S3.3. Assess correspondence between the predicted result contained in the hypothesis and the actual result, and reach a conclusion as to whether or not the explanation on which the prediction is supported.
1.S3.3.ii. Compare the experimental result to the expected result; calculate the percent error as appropriate.
Multimedia Lesson Sound
Virtual Lab Speed of Sound
 
C.4. The Physical Setting: Students will understand and apply scientific concepts, principles, and theories pertaining to the physical setting and living environment and recognize the historical development of ideas in science.
C.4.3. Matter is made up of particles whose properties determine the observable characteristics of matter and its reactivity.
4.3.1. Explain the properties of materials in terms of the arrangement and properties of the atoms that compose them.
4.3.1.i. Use models to describe the structure of an atom.
Multimedia Lesson Atoms and Chemical Bonding
Interactive/Simulation Electron Configuration
Presentations Models of the Atom
Quiz, Flash Cards, Worksheet, Game Chemical Formulas and Bonding
 
4.3.1.ii. Relate experimental evidence (given in the introduction of Key Idea 3) to models of the atom.
Multimedia Lesson Atoms and Chemical Bonding
Presentations Models of the Atom
 
4.3.1.iii. Determine the number of protons or electrons in an atom or ion when given one of these values.
Multimedia Lesson Atoms and Chemical Bonding
Presentations Classes of Matter
Quiz, Flash Cards, Worksheet, Game Elements - Set II
Quiz, Flash Cards, Worksheet, Game Elements - Set I
 
4.3.1.iv. Calculate the mass of an atom, the number of neutrons or the number of protons, given the other two values.
Multimedia Lesson Atoms and Chemical Bonding
Quiz, Flash Cards, Worksheet, Game Elements - Set II
Quiz, Flash Cards, Worksheet, Game Elements - Set I
 
4.3.1.v. Distinguish between ground state and excited state electron configurations, e.g., 2-8-2 vs. 2-7-3.
Multimedia Lesson Atoms and Chemical Bonding
Virtual Lab Flame Test
Quiz, Flash Cards, Worksheet, Game Atomic Structure - Set I
Quiz, Flash Cards, Worksheet, Game Atomic Structure - Set II
 
4.3.1.vii. Distinguish between valence and non-valence electrons, given an electron configuration, e.g., 2-8-2.
Multimedia Lesson Atoms and Chemical Bonding
Presentations Ionic Bonding
 
4.3.1.x. Interpret and write isotopic notation.
Quiz, Flash Cards, Worksheet, Game Atomic and Nuclear Physics
Quiz, Flash Cards, Worksheet, Game Nuclear Chemistry
 
4.3.1.xi. Given an atomic mass, determine the most abundant isotope.
Quiz, Flash Cards, Worksheet, Game Atomic and Nuclear Physics
Quiz, Flash Cards, Worksheet, Game Nuclear Chemistry
 
4.3.1.xii. Calculate the atomic mass of an element, given the masses and ratios of naturally occurring isotopes.
Multimedia Lesson Atoms and Chemical Bonding
Quiz, Flash Cards, Worksheet, Game Atomic and Nuclear Physics
Quiz, Flash Cards, Worksheet, Game Nuclear Chemistry
Quiz, Flash Cards, Worksheet, Game Elements - Set II
Quiz, Flash Cards, Worksheet, Game Elements - Set I
 
4.3.1.xiii. Classify elements as metals, nonmetals, metalloids, or noble gases by their properties.
Multimedia Lesson Atoms and Chemical Bonding
Interactive/Simulation Metals, Nonmetals and Metalloids
Virtual Lab Flame Test
Presentations Classes of Elements
Quiz, Flash Cards, Worksheet, Game The Periodic Table - Set I
Quiz, Flash Cards, Worksheet, Game The Periodic Table - Set II
 
4.3.1.xiv. Compare and contrast properties of elements within a group or a period for Groups 1, 2, 13-18 on the Periodic Table.
Quiz, Flash Cards, Worksheet, Game Elements - Set II
Quiz, Flash Cards, Worksheet, Game Elements - Set I
 
4.3.1.xix. Distinguish among ionic, molecular, and metallic substances, given their properties.
Multimedia Lesson Atoms and Chemical Bonding
Interactive/Simulation Metals, Nonmetals and Metalloids
Virtual Lab Flame Test
Presentations Classes of Elements
Presentations Classes of Matter
Presentations Ionic Bonding
Quiz, Flash Cards, Worksheet, Game The Periodic Table - Set I
Quiz, Flash Cards, Worksheet, Game The Periodic Table - Set II
 
4.3.1.xv. Determine the group of an element, given the chemical formula of a compound, e.g., XCl or XCl2.
Quiz, Flash Cards, Worksheet, Game Elements - Set II
Quiz, Flash Cards, Worksheet, Game Elements - Set I
 
4.3.1.xvi. Explain the placement of an unknown element on the Periodic Table based on its properties.
 
4.3.1.xvii. Classify an organic compound based on its structural or condensed structural formula.
Quiz, Flash Cards, Worksheet, Game Organic Chemistry
 
4.3.1.xviii. Describe the states of the elements at STP.
Interactive/Simulation States of Matter
Presentations Changes of State
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game States of Matter
 
4.3.1.xxii. Use a simple particle model to differentiate among properties of solids, liquids, and gases.
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game States of Matter
 
4.3.1.xxiii. Compare the entropy of phases of matter.
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game States of Matter
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
4.3.1.xxix. Calculate solution concentration in molarity (M), percent mass, and parts per million (ppm).
Quiz, Flash Cards, Worksheet, Game The Mole
 
4.3.1.xxvii. Interpret solution concentration data.
Quiz, Flash Cards, Worksheet, Game The Mole
 
4.3.1.xxx. Describe the preparation of a solution, given the molarity.
Quiz, Flash Cards, Worksheet, Game The Mole
 
4.3.1.xxxi. Given properties, identify substances as Arrhenius acids or Arrhenius bases.
Quiz, Flash Cards, Worksheet, Game Acids, Bases and Salts
 
4.3.2. Use atomic and molecular models to explain common chemical reactions.
4.3.2.i. Distinguish between chemical and physical changes.
Multimedia Lesson Chemical Reactions
Interactive/Simulation Chemical and Physical Changes
Presentations Changes of State
Presentations Chemical Reactions
Quiz, Flash Cards, Worksheet, Game Matter and Energy
 
4.3.2.ii. Identify types of chemical reactions.
Multimedia Lesson Chemical Reactions
Multimedia Lesson Electricity and Magnetism
Interactive/Simulation Electrochemical Cell
Interactive/Simulation Types of Reactions
Presentations Batteries
Presentations Changes of State
Presentations Energy in Reactions
Quiz, Flash Cards, Worksheet, Game Chemical Reactions
Quiz, Flash Cards, Worksheet, Game Kinetics and Equilibrium
Quiz, Flash Cards, Worksheet, Game Oxidation, Reduction and Electrochemistry
 
4.3.2.iii. Determine a missing reactant or product in a balanced equation.
Multimedia Lesson Chemical Reactions
Presentations Balancing Equations
Quiz, Flash Cards, Worksheet, Game Chemical Equations
 
4.3.2.ix. Compare and contrast voltaic and electrolytic cells.
Multimedia Lesson Electricity and Magnetism
Interactive/Simulation Electrochemical Cell
Presentations Batteries
Quiz, Flash Cards, Worksheet, Game Oxidation, Reduction and Electrochemistry
 
4.3.2.v. Balance equations, given the formulas of reactants and products.
Multimedia Lesson Chemical Reactions
Presentations Balancing Equations
Quiz, Flash Cards, Worksheet, Game Chemical Equations
 
4.3.2.vii. Identify and label the parts of a voltaic cell (cathode, anode, salt bridge) and direction of electron flow, given the reaction equation.
Multimedia Lesson Electricity and Magnetism
Presentations Batteries
 
4.3.2.viii. Identify and label the parts of an electrolytic cell (cathode, anode) and direction of electron flow, given the reaction equation.
Multimedia Lesson Electricity and Magnetism
Interactive/Simulation Electrochemical Cell
Presentations Batteries
Quiz, Flash Cards, Worksheet, Game Oxidation, Reduction and Electrochemistry
 
4.3.3. Apply the principle of conservation of mass to chemical reactions.
4.3.3.i. Balance equations, given the formulas for reactants and products.
Multimedia Lesson Chemical Reactions
Presentations Balancing Equations
Quiz, Flash Cards, Worksheet, Game Chemical Equations
 
4.3.3.iii. Create and use models of particles to demonstrate balanced equations.
Multimedia Lesson Chemical Reactions
Presentations Balancing Equations
Quiz, Flash Cards, Worksheet, Game Chemical Equations
 
4.3.4. Use kinetic molecular theory (KMT) to explain rates of reactions and the relationships among temperature, pressure, and volume of a substance.
4.3.4.i. Explain the gas laws in terms of KMT.
Virtual Lab Gas Laws
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game States of Matter
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
4.3.4.ii. Solve problems, using the combined gas laws.
Virtual Lab Gas Laws
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game States of Matter
 
4.3.4.iv. Describe the concentration of particles and rates of opposing reactions in an equilibrium system.
Multimedia Lesson Chemical Reactions
Presentations Energy in Reactions
Quiz, Flash Cards, Worksheet, Game Chemical Reactions
Quiz, Flash Cards, Worksheet, Game The Mole
 
4.3.4.vi. Use collision theory to explain how various factors, such as temperature, surface area, and concentration, influence the rate of reaction.
Multimedia Lesson Chemical Reactions
Presentations Energy in Reactions
Quiz, Flash Cards, Worksheet, Game Chemical Reactions
 
C.4.4. Energy exists in many forms, and when these forms change, energy is conserved.
4.4.1. Observe and describe transmission of various forms of energy.
4.4.1.i. Distinguish between endothermic and exothermic reactions, using energy terms in a reaction equation, delta H, potential energy diagrams, or experimental data.
Multimedia Lesson Chemical Reactions
Presentations Changes of State
Presentations Energy in Reactions
Quiz, Flash Cards, Worksheet, Game Kinetics and Equilibrium
 
4.4.1.ii. Read and interpret potential energy diagrams: PE reactants, PE products, activation energy (with or without a catalyst), heat of reaction.
Multimedia Lesson Chemical Reactions
Presentations Energy in Reactions
Quiz, Flash Cards, Worksheet, Game Matter and Energy
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
4.4.2. Explain heat in terms of kinetic molecular theory.
4.4.2.i. Distinguish between heat energy and temperature in terms of molecular motion and amount of matter.
Multimedia Lesson Energy: Forms and Changes
Quiz, Flash Cards, Worksheet, Game Gases
Quiz, Flash Cards, Worksheet, Game Heat
Quiz, Flash Cards, Worksheet, Game Matter and Energy
Quiz, Flash Cards, Worksheet, Game Properties of Matter
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
4.4.2.ii. Explain phase change in terms of the changes in energy and intermolecular distances.
Presentations Changes of State
Quiz, Flash Cards, Worksheet, Game Matter and Energy
 
4.4.2.iii. Qualitatively interpret heating and cooling curves in terms of changes in kinetic and potential energy, heat of vaporization, heat of fusion, and phase changes.
Presentations Changes of State
Quiz, Flash Cards, Worksheet, Game Matter and Energy
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
C.4.5. Energy and matter interact through forces that result in changes in motion.
4.5.2. Students will explain chemical bonding in terms of the behavior of electrons.
4.5.2.i. Demonstrate bonding concepts, using Lewis dot structures representing valence electrons: transferred (ionic bonding); shared (covalent bonding); in a stable octet.
Multimedia Lesson Atoms and Chemical Bonding
Presentations Ionic Bonding
 
4.5.2.ii. Compare the physical properties of substances based on chemical bonds and intermolecular forces, e.g., conductivity, malleability, solubility, hardness, melting point, and boiling point.
Multimedia Lesson Minerals
Multimedia Lesson Rocks
Interactive/Simulation Sequence: Mohs Hardness Scale
Presentations Changes of State
Quiz, Flash Cards, Worksheet, Game Heat
 
4.5.2.iii. Explain vapor pressure, evaporation rate, and phase changes in terms of intermolecular forces.
Presentations States of Matter
 
4.5.2.iv. Determine the noble gas configuration an atom will achieve by bonding.
Multimedia Lesson Atoms and Chemical Bonding
Presentations Ionic Bonding
 
4.5.2.v. Distinguish between nonpolar covalent bonds (two of the same nonmetals) and polar covalent bonds.
Multimedia Lesson Atoms and Chemical Bonding
 
C.6. Interconnectedness: Common Themes: Students will understand the relationships and common themes that connect mathematics, science, and technology and apply the themes to these and other areas of learning.
C.6.1. Through systems thinking, people can recognize the commonalities that exist among all systems and how parts of a system interrelate and combine to perform specific functions.
6.1.1. Use the concept of systems and surroundings to describe heat flow in a chemical or physical change, e.g., dissolving process.
Multimedia Lesson Chemical Reactions
Presentations Changes of State
Presentations Energy in Reactions
Quiz, Flash Cards, Worksheet, Game Kinetics and Equilibrium
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
C.6.2. Models are simplified representations of objects, structures, or systems used in analysis, explanation, interpretation, or design.
6.2.1. Revise a model to create a more complete or improved representation of the system.
6.2.1.i. Show how models are revised in response to experimental evidence, e.g., atomic theory, Periodic Table.
Multimedia Lesson Atoms and Chemical Bonding
Presentations Models of the Atom
 
6.2.2. Collect information about the behavior of a system and use modeling tools to represent the operation of the system.
6.2.2.i. Show how information about a system is used to create a model, e.g., kinetic molecular theory (KMT).
Multimedia Lesson Atoms and Chemical Bonding
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game States of Matter
 
6.2.3. Find and use mathematical models that behave in the same manner as the processes under investigation.
6.2.3.i. Show how mathematical models (equations) describe a process, e.g., combined gas law.
Multimedia Lesson Energy: Forms and Changes
Virtual Lab Gas Laws
Presentations States of Matter
Quiz, Flash Cards, Worksheet, Game States of Matter
Quiz, Flash Cards, Worksheet, Game Thermodynamics
 
C.6.3. The grouping of magnitudes of size, time, frequency, and pressures or other units of measurement into a series of relative order provides a useful way to deal with the immense range and the changes in scale that affect the behavior and design of systems.
6.3.1. Describe the effects of changes in scale on the functioning of physical, biological, or designed information systems.
6.3.1.i. Show how microscale processes can resemble or differ from real-world processes, e.g., microscale chemistry.
Multimedia Lesson Atoms and Chemical Bonding
Presentations Models of the Atom
 
C.6.4. Equilibrium is a state of stability due either to a lack of change (static equilibrium) or a balance between opposing forces (dynamic equilibrium).
6.4.1. Describe specific instances of how disturbances might affect a system's equilibrium, from small disturbances that do not upset the equilibrium to larger disturbances (threshold level) that cause the system to become unstable.
6.4.1.i. Explain how a small change might not affect a system, e.g., activation energy.
Multimedia Lesson Chemical Reactions
Presentations Energy in Reactions
Quiz, Flash Cards, Worksheet, Game Kinetics and Equilibrium
Quiz, Flash Cards, Worksheet, Game Matter and Energy
 
C.6.5. Identifying patterns of change is necessary for making predictions about future behavior and conditions.
6.5.1. Use graphs to make predictions, e.g., half-life, solubility.
Virtual Lab Gas Laws
 
6.5.2. Use graphs to identify patterns and interpret experimental data, e.g., heating and cooling curves.
Virtual Lab Gas Laws
 
C.7. Interdisciplinary Problem Solving: Students will apply the knowledge and thinking skills of mathematics, science, and technology to address real-life problems and make informed decisions.
C.7.1. The knowledge and skills of mathematics, science, and technology are used together to make informed decisions and solve problems, especially those relating to issues of science/technology/society, consumer decision making, design, and inquiry into phenomena.
7.1.2. Analyze and quantify consumer product data, understand environmental and economic impacts, develop a method for judging the value and efficacy of competing products, and discuss cost-benefit and risk-benefit trade-offs made in arriving at the optimal choice.
7.1.2.i. Compare and analyze specific consumer products, e.g., antacids, vitamin C.
Multimedia Lesson Atoms and Chemical Bonding
Multimedia Lesson Chemical Reactions
Interactive/Simulation Chemical and Physical Changes
Interactive/Simulation Chemical Bonding
Interactive/Simulation Electron Configuration
Interactive/Simulation Identifying Elements
Interactive/Simulation Metals, Nonmetals and Metalloids
Interactive/Simulation States of Matter
Interactive/Simulation Types of Reactions
Virtual Lab Gas Laws
 
C.7.2. Solving interdisciplinary problems involves a variety of skills and strategies, including effective work habits; gathering and processing information; generating and analyzing ideas; realizing ideas; making connections among the common themes of mathematics, science, and technology; and presenting results. If students are asked to do a project, then the project would require students to:
7.2.2. Gather and process information
Multimedia Lesson Forces and Motion
Multimedia Lesson Sound
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Speed of Sound
 
7.2.4. Observe common themes
Multimedia Lesson Energy: Forms and Changes
Virtual Lab Gas Laws
 

NY.CC.11-12.RST.Reading Standards for Literacy in Science and Technical Subjects

Reading Standards for Literacy in Science and Technical Subjects
Integration of Knowledge and Ideas
11-12.RST.8. Evaluate the hypotheses, data, analysis, and conclusions in a science or technical text, verifying the data when possible and corroborating or challenging conclusions with other sources of information.
Multimedia Lesson Earth's Surface
Multimedia Lesson Earthquakes
Multimedia Lesson Minerals
Multimedia Lesson Rocks
Multimedia Lesson Sound
Multimedia Lesson Volcanoes
Virtual Lab Speed of Sound
Virtual Lab Topographic Maps
Virtual Lab Volcano Simulator
 
11-12.RST.9. Synthesize information from a range of sources (e.g., texts, experiments, simulations) into a coherent understanding of a process, phenomenon, or concept, resolving conflicting information when possible.
Virtual Lab Nerve Conduction
 
Craft and Structure
11-12.RST.4. Determine the meaning of symbols, key terms, and other domain-specific words and phrases as they are used in a specific scientific or technical context relevant to grades 11-12 texts and topics.
Multimedia Lesson Atmosphere and Weather
Multimedia Lesson Atoms and Chemical Bonding
Multimedia Lesson Cells
Multimedia Lesson Chemical Reactions
Multimedia Lesson Chromosomes, Genes and DNA
Multimedia Lesson Earth's Climate
Multimedia Lesson Earth's Surface
Multimedia Lesson Earthquakes
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Food Chains and Food Webs
Multimedia Lesson Forces and Motion
Multimedia Lesson Light and Optics
Multimedia Lesson Meiosis
Multimedia Lesson Minerals
Multimedia Lesson Mitosis
Multimedia Lesson Our Solar System
Multimedia Lesson Plate Tectonics
Multimedia Lesson Protists: Pond Microlife
Multimedia Lesson Rocks
Multimedia Lesson Six Kingdoms of Life
Multimedia Lesson Sound
Multimedia Lesson The Sun-Earth-Moon System
Multimedia Lesson Volcanoes
Interactive/Simulation Amoeba
Interactive/Simulation Animal Cell
Interactive/Simulation Biomes
Interactive/Simulation Cardiovascular System
Interactive/Simulation Chromosome and DNA Structure
Interactive/Simulation Circuit
Interactive/Simulation Digestive System
Interactive/Simulation Earth's Interior
Interactive/Simulation Earthquake and Seismogram
Interactive/Simulation Electrochemical Cell
Interactive/Simulation Electromagnetic Spectrum
Interactive/Simulation Euglena
Interactive/Simulation Excretory System
Interactive/Simulation From DNA to Protein
Interactive/Simulation Nervous System
Interactive/Simulation Plant Cell
Interactive/Simulation Reflection and Lenses
Interactive/Simulation Reflection and Mirrors
Interactive/Simulation Respiratory System
Interactive/Simulation Rock Uses
Interactive/Simulation Simple Machines
Interactive/Simulation Soil Profile
Interactive/Simulation Sound Waves
Interactive/Simulation States of Matter
Interactive/Simulation Structure of a Volcano
Interactive/Simulation The Endocrine System
Interactive/Simulation The Immune System
Interactive/Simulation The Male Reproductive System
Interactive/Simulation The Skeletal System
Interactive/Simulation The Skin
Interactive/Simulation The Solar System
Interactive/Simulation The Sun
Interactive/Simulation Tones and Overtones
Interactive/Simulation Transmission of Light
Interactive/Simulation Types of Muscles
Interactive/Simulation Wave Interactions
Presentations Balancing Equations
Presentations Chemical Reactions
Presentations Energy Flow
Presentations Energy Pyramid
Presentations Food Chains
Presentations Heart Health
Flip Charts Animal Homes
Flip Charts Energy Flow
Flip Charts Energy Pyramid
Flip Charts Food Chains
Flip Charts Food Web Balance
Flip Charts Food Webs
Flip Charts Nutrition
Flip Charts Owl Food Web
Flip Charts Owl Pellets
Flip Charts Types of Consumers
Vocabulary Terms Ecology I
Vocabulary Terms Ecology II
Quiz, Flash Cards, Worksheet, Game Chemical Formulas and Bonding
Quiz, Flash Cards, Worksheet, Game Chemical Reactions
Quiz, Flash Cards, Worksheet, Game Ecology I
Quiz, Flash Cards, Worksheet, Game Ecology II
Quiz, Flash Cards, Worksheet, Game Measurements and Calculations
 

NY.CC.11-12.WHST.Writing Standards for Literacy in Science and Technical Subjects

Writing Standards for Literacy in Science and Technical Subjects
Research to Build and Present Knowledge
11-12.WHST.7. Conduct short as well as more sustained research projects to answer a question (including a self-generated question) or solve a problem; narrow or broaden the inquiry when appropriate; synthesize multiple sources on the subject, demonstrating understanding of the subject under investigation.
Multimedia Lesson Atmosphere and Weather
 
Text Types and Purposes
11-12.WHST.2. Write informative/explanatory texts, including the narration of historical events, scientific procedures/ experiments, or technical processes.
11-12.WHST.2.d. Use precise language, domain-specific vocabulary and techniques such as metaphor, simile, and analogy to manage the complexity of the topic; convey a knowledgeable stance in a style that responds to the discipline and context as well as to the expertise of likely readers.
Multimedia Lesson Atmosphere and Weather
 
11-12.WHST.2.e. Provide a concluding statement or section that follows from and supports the information or explanation provided (e.g., articulating implications or the significance of the topic).
Multimedia Lesson Sound
Virtual Lab Flame Test
Virtual Lab Gas Laws
Virtual Lab Speed of Sound
 

NY.E.PHYSICAL SETTING / EARTH SCIENCE

PHYSICAL SETTING / EARTH SCIENCE
E.1. Analysis, Inquiry, and Design: Students will use mathematical analysis, scientific inquiry, and engineering design, as appropriate, to pose questions, seek answers, and develop solutions.
E.1.M2: MATHEMATICAL ANALYSIS: Deductive and inductive reasoning are used to reach mathematical conclusions.
1.M2.1. Determine the relationships among: velocity, slope, sediment size, channel shape, and volume of a stream
Multimedia Lesson Atmosphere and Weather
Presentations Weather
 
1.M2.2. Understand the relationships among: the planets' distance from the Sun, gravitational force, period of revolution, and speed of revolution
Multimedia Lesson The Sun-Earth-Moon System
Presentations Earth's Moon
Presentations How the Earth Moves
Flip Charts Earth’s Moon
Flip Charts Eclipses
Flip Charts Gravity and Motion
Flip Charts Phases of the Moon
Flip Charts Seasons on Earth
Flip Charts Tides
Vocabulary Terms The Sun-Earth-Moon System
Quiz, Flash Cards, Worksheet, Game Rotational Motion/Universal Gravitation
Quiz, Flash Cards, Worksheet, Game The Sun-Earth-Moon System
 
E.1.S1: SCIENTIFIC INQUIRY: The central purpose of scientific inquiry is to develop explanations of natural phenomena in a continuing, creative process.
1.S1.1. Show how our observation of celestial motions supports the idea of stars moving around a stationary Earth (the geocentric model), but further investigation has led scientists to understand that most of these changes are a result of Earth's motion around the Sun (the heliocentric model)
Multimedia Lesson Our Solar System
Flip Charts The Inner Planets
Flip Charts The Outer Planets
Flip Charts The Sun
Vocabulary Terms Our Solar System
Quiz, Flash Cards, Worksheet, Game Our Solar System
 
E.1.S2: SCIENTIFIC INQUIRY: Beyond the use of reasoning and consensus, scientific inquiry involves the testing of proposed explanations involving the use of conventional techniques and procedures and usually requiring considerable ingenuity.
1.S2.1. Test sediment properties and the rate of deposition
Multimedia Lesson Earth's Surface
Multimedia Lesson Rocks
Presentations Classifying Rocks
Presentations Sedimentary Rocks
Presentations The Rock Cycle
Flip Charts Soil
Vocabulary Terms The Rock Cycle
Vocabulary Terms Weathering and Erosion
Quiz, Flash Cards, Worksheet, Game The Rock Cycle
Quiz, Flash Cards, Worksheet, Game Weathering and Erosion
 
E.1.T1: ENGINEERING DESIGN: Engineering design is an iterative process involving modeling and optimization (finding the best solution within given constraints); this process is used to develop technological solutions to problems within given constraints.
1.T1.2. Determine patterns of topography and drainage around your school and design solutions to effectively deal with runoff
Quiz, Flash Cards, Worksheet, Game Maps as Models of the Earth
 
E.2. Information Systems: Students will access, generate, process, and transfer information, using appropriate technologies.
E.2.1: Information technology is used to retrieve, process, and communicate information as a tool to enhance learning.
2.1.1. Analyze weather maps to predict future weather events
Multimedia Lesson Atmosphere and Weather
Presentations Predicting Weather
Flip Charts Clouds
Flip Charts Precipitation
Flip Charts Predicting Weather
Flip Charts Severe Weather
Flip Charts Weather
Vocabulary Terms Weather II
Quiz, Flash Cards, Worksheet, Game Weather II
 
E.2.3: Information technology can have positive and negative impacts on society, depending upon how it is used.
2.3.1. Discuss how early warning systems can protect society and the environment from natural disasters such as hurricanes, tornadoes, earthquakes, tsunamis, floods, and volcanoes
Flip Charts Clouds
Flip Charts Earthquake Safety
Flip Charts Precipitation
Flip Charts Predicting Weather
Flip Charts Seismic Waves
Flip Charts Severe Weather
Flip Charts The Richter Scale
Flip Charts Weather
Vocabulary Terms Earthquakes
Vocabulary Terms Weather II
Quiz, Flash Cards, Worksheet, Game Earthquakes
Quiz, Flash Cards, Worksheet, Game Weather II
 
E.4. The Physical Setting: Students will understand and apply scientific concepts, principles, and theories pertaining to the physical setting and living environment and recognize the historical development of ideas in science.
E.4.1: The Earth and celestial phenomena can be described by principles of relative motion and perspective.
4.1.1. Explain complex phenomena, such as tides, variations in day length, solar insolation, apparent motion of the planets, and annual traverse of the constellations.
Multimedia Lesson The Sun-Earth-Moon System
Interactive/Simulation Moon Phases
Presentations How the Earth Moves
Presentations Seasons on Earth
Flip Charts Earth’s Moon
Flip Charts Eclipses
Flip Charts Gravity and Motion
Flip Charts Phases of the Moon
Flip Charts Seasons on Earth
Flip Charts Tides
Vocabulary Terms The Sun-Earth-Moon System
Quiz, Flash Cards, Worksheet, Game The Sun-Earth-Moon System
 
4.1.2. Describe current theories about the origin of the universe and solar system.
Multimedia Lesson Our Solar System
Flip Charts The Inner Planets
Flip Charts The Outer Planets
Flip Charts The Sun
Vocabulary Terms Our Solar System
Quiz, Flash Cards, Worksheet, Game Our Solar System
Quiz, Flash Cards, Worksheet, Game The History of Earth
 
E.4.2: Many of the phenomena that we observe on Earth involve interactions among components of air, water, and land.
4.2.1. Use the concepts of density and heat energy to explain observations of weather patterns, seasonal changes, and the movements of Earth's plates.
Multimedia Lesson Atmosphere and Weather
Multimedia Lesson Earth's Climate
Multimedia Lesson Plate Tectonics
Multimedia Lesson The Sun-Earth-Moon System
Multimedia Lesson Volcanoes
Virtual Lab Earth's Seasons
Presentations Sea-Floor Spreading
Presentations Seasons on Earth
Presentations Severe Weather
Presentations Weather Patterns
Flip Charts Continental Drift
Flip Charts Earth’s Interior
Vocabulary Terms Plate Tectonics
Quiz, Flash Cards, Worksheet, Game Plate Tectonics
 
4.2.2. Explain how incoming solar radiation, ocean currents, and land masses affect weather and climate.
Multimedia Lesson Earth's Climate
Vocabulary Terms Oceans
Quiz, Flash Cards, Worksheet, Game Oceans
 
E.6. Interconnectedness: Common Themes: Students will understand the relationships and common themes that connect mathematics, science, and technology and apply the themes to these and other areas of learning.
E.6.1: Through systems thinking, people can recognize the commonalities that exist among all systems and how parts of a system interrelate and combine to perform specific functions.
6.1.1. Analyze a depositional-erosional system of a stream
Multimedia Lesson Earth's Surface
Flip Charts Soil
Vocabulary Terms Weathering and Erosion
Quiz, Flash Cards, Worksheet, Game Weathering and Erosion
 
E.6.2: Models are simplified representations of objects, structures, or systems used in analysis, explanation, interpretation, or design.
6.2.1. Draw a simple contour map of a model landform
Multimedia Lesson Earth's Surface
Virtual Lab Topographic Maps
Quiz, Flash Cards, Worksheet, Game Maps as Models of the Earth
 
6.2.2. Design a 3-D landscape model from a contour map
Multimedia Lesson Earth's Surface
Virtual Lab Topographic Maps
Quiz, Flash Cards, Worksheet, Game Maps as Models of the Earth
 
6.2.3. Construct and interpret a profile based on an isoline map
Multimedia Lesson Earth's Surface
Virtual Lab Topographic Maps
Quiz, Flash Cards, Worksheet, Game Maps as Models of the Earth
 
6.2.4. Use flowcharts to identify rocks and minerals
Multimedia Lesson Minerals
Multimedia Lesson Rocks
Interactive/Simulation Rock Uses
Presentations Classifying Rocks
Presentations Igneous Rocks
Presentations Metamorphic Rocks
Presentations Sedimentary Rocks
Flip Charts Classifying Rocks
Flip Charts Identifying Rocks
Flip Charts Igneous Rocks
Flip Charts Metamorphic Rocks
Flip Charts Mineral Resources
Flip Charts Minerals vs. Rocks
Flip Charts Sedimentary Rocks
Flip Charts The Rock Cycle
Flip Charts Use of Minerals
Flip Charts What is a Mineral?
Flip Charts What is a Rock?
Vocabulary Terms Minerals I
Vocabulary Terms Minerals II
Vocabulary Terms Rocks - Set I
Vocabulary Terms Rocks - Set II
Quiz, Flash Cards, Worksheet, Game Minerals I
Quiz, Flash Cards, Worksheet, Game Minerals II
Quiz, Flash Cards, Worksheet, Game Rocks - Set I
Quiz, Flash Cards, Worksheet, Game Rocks - Set II
 
E.6.3: The grouping of magnitudes of size, time, frequency, and pressures or other units of measurement into a series of relative order provides a useful way to deal with the immense range and the changes in scale that affect the behavior and design of systems.
6.3.2. Develop a scale model of units of geologic time
Quiz, Flash Cards, Worksheet, Game The History of Earth
 
6.3.3. Use topographical maps to determine distances and elevations
Multimedia Lesson Earth's Surface
Virtual Lab Topographic Maps
Quiz, Flash Cards, Worksheet, Game Maps as Models of the Earth
 
E.6.4: Equilibrium is a state of stability due either to a lack of change (static equilibrium) or a balance between opposing forces (dynamic equilibrium).
6.4.1. Analyze the interrelationship between gravity and inertia and its effects on the orbit of planets or satellites
Quiz, Flash Cards, Worksheet, Game Rotational Motion/Universal Gravitation
 
E.6.5: Identifying patterns of change is necessary for making predictions about future behavior and conditions.
6.5.1. Graph and interpret the nature of cyclic change such as sunspots, tides, and atmospheric carbon dioxide
Multimedia Lesson The Sun-Earth-Moon System
Flip Charts Animal Homes
Flip Charts Energy Flow
Flip Charts Energy Pyramid
Flip Charts Food Chains
Flip Charts Food Web Balance
Flip Charts Food Webs
Flip Charts Owl Food Web
Flip Charts Owl Pellets
Flip Charts Types of Consumers
Vocabulary Terms Ecology I
Vocabulary Terms Ecology II
Quiz, Flash Cards, Worksheet, Game Ecology I
Quiz, Flash Cards, Worksheet, Game Ecology II
 
6.5.2. Based on present data of plate movement, determine past and future positions of land masses
Multimedia Lesson Earthquakes
Multimedia Lesson Plate Tectonics
Multimedia Lesson Volcanoes
Interactive/Simulation Continent Movement Over Time
Presentations Continental Drift
Presentations Sea-Floor Spreading
Flip Charts Continental Drift
Flip Charts Earth’s Interior
Vocabulary Terms Plate Tectonics
Quiz, Flash Cards, Worksheet, Game Plate Tectonics
 
6.5.3. Using given weather data, identify the interface between air masses, such as cold fronts, warm fronts, and stationary fronts
Multimedia Lesson Atmosphere and Weather
Presentations Severe Weather
Presentations Weather Patterns
 
E.6.6: In order to arrive at the best solution that meets criteria within constraints, it is often necessary to make trade-offs.
6.6.1. Debate the effect of human activities as they relate to quality of life on Earth systems (global warming, land use, preservation of natural resources, pollution)
Multimedia Lesson Atmosphere and Weather
Multimedia Lesson Earth's Climate
Multimedia Lesson Minerals
Presentations Atmosphere Overview
Presentations Climate Change
Presentations Global Warming
Flip Charts Climate Change
Flip Charts Global Warming
Flip Charts Our Atmosphere
Flip Charts Ozone Depletion
Flip Charts Seasons
Flip Charts The Polar Zone
Flip Charts The Temperate Zone
Flip Charts The Tropical Zone
Vocabulary Terms Climate
Vocabulary Terms Oceans
Vocabulary Terms The Atmosphere
Quiz, Flash Cards, Worksheet, Game Climate
Quiz, Flash Cards, Worksheet, Game Oceans
Quiz, Flash Cards, Worksheet, Game The Atmosphere
 
E.7. Interdisciplinary Problem Solving: Students will apply the knowledge and thinking skills of mathematics, science, and technology to address real-life problems and make informed decisions.
E.7.1: The knowledge and skills of mathematics, science, and technology are used together to make informed decisions and solve problems, especially those relating to issues of science/ technology/society, consumer decision making, design, and inquiry into phenomena.
7.1.2. Investigate two similar fossils to determine if they represent a developmental change over time
Multimedia Lesson Plate Tectonics
Presentations Continental Drift
Quiz, Flash Cards, Worksheet, Game Fossils I
Quiz, Flash Cards, Worksheet, Game Fossils II
 
7.1.3. Investigate the political, economic, and environmental impact of global distribution and use of mineral resources and fossil fuels
Multimedia Lesson Earth's Climate
Multimedia Lesson Minerals
Interactive/Simulation Mineral Uses
Presentations Global Warming
Presentations Use of Minerals
Flip Charts Mineral Resources
Flip Charts Minerals vs. Rocks
Flip Charts Use of Minerals
Flip Charts What is a Mineral?
Vocabulary Terms Minerals I
Vocabulary Terms Minerals II
Quiz, Flash Cards, Worksheet, Game Minerals I
Quiz, Flash Cards, Worksheet, Game Minerals II
 
7.1.4. Consider environmental and social implications of various solutions to an environmental Earth resources problem
Multimedia Lesson Atmosphere and Weather
Presentations Atmosphere Overview
 
E.7.2: Solving interdisciplinary problems involves a variety of skills and strategies, including effective work habits; gathering and processing information; generating and analyzing ideas; realizing ideas; making connections among the common themes of mathematics, science, and technology; and presenting results.
7.2.1. Collect, collate, and process data concerning potential natural disasters (tornadoes, thunderstorms, blizzards, earthquakes, tsunamis, floods, volcanic eruptions, asteroid impacts, etc.) in an area and develop an emergency action plan
Multimedia Lesson Atmosphere and Weather
Presentations Predicting Weather
Flip Charts Clouds
Flip Charts Earthquake Safety
Flip Charts Precipitation
Flip Charts Predicting Weather
Flip Charts Seismic Waves
Flip Charts Severe Weather
Flip Charts The Richter Scale
Flip Charts Weather
Vocabulary Terms Earthquakes
Vocabulary Terms Weather II
Quiz, Flash Cards, Worksheet, Game Earthquakes
Quiz, Flash Cards, Worksheet, Game Weather II
 
7.2.2. Using a topographic map, determine the safest and most efficient route for rescue purposes
Multimedia Lesson Earth's Surface
Virtual Lab Topographic Maps
Quiz, Flash Cards, Worksheet, Game Maps as Models of the Earth
 

NY.L.THE LIVING ENVIRONMENT

THE LIVING ENVIRONMENT
L.1. Analysis, Inquiry, and Design: Students will use mathematical analysis, scientific inquiry, and engineering design, as appropriate, to pose questions, seek answers, and develop solutions.
L.1.S1: SCIENTIFIC INQUIRY: The central purpose of scientific inquiry is to develop explanations of natural phenomena in a continuing, creative process.
1.S1.1. Elaborate on basic scientific and personal explanations of natural phenomena, and develop extended visual models and mathematical formulations to represent one's thinking.
Multimedia Lesson Meiosis
Interactive/Simulation Understanding a Punnett Square
Virtual Lab Nerve Conduction
Presentations Making a Pedigree
 
1.S1.3. Work toward reconciling competing explanations; clarify points of agreement and disagreement.
Virtual Lab Nerve Conduction
 
1.S1.4. Coordinate explanations at different levels of scale, points of focus, and degrees of complexity and specificity, and recognize the need for such alternative representations of the natural world.
Multimedia Lesson Meiosis
Interactive/Simulation Understanding a Punnett Square
Presentations Making a Pedigree
 
L.1.S2: SCIENTIFIC INQUIRY: Beyond the use of reasoning and consensus, scientific inquiry involves the testing of proposed explanations involving the use of conventional techniques and procedures and usually requiring considerable ingenuity.
1.S2.1. Devise ways of making observations to test proposed explanations.
Multimedia Lesson Cells
Virtual Lab Blood Typing
Virtual Lab Nerve Conduction
 
1.S2.4. Carry out a research plan for testing explanations, including selecting and developing techniques, acquiring and building apparatus, and recording observations as necessary.
Multimedia Lesson Cells
Virtual Lab Blood Typing
Virtual Lab Nerve Conduction
Presentations Discovering Cells
Quiz, Flash Cards, Worksheet, Game The science of biology
 
L.1.S3: SCIENTIFIC INQUIRY: The observations made while testing proposed explanations, when analyzed using conventional and invented methods, provide new insights into phenomena.
1.S3.1. Use various methods of representing and organizing observations (e.g., diagrams, tables, charts, graphs, equations, matrices) and insightfully interpret the organized data.
 
1.S3.2. Apply statistical analysis techniques when appropriate to test if chance alone explains the results.
Interactive/Simulation Understanding a Punnett Square
 
L.4. The Living Environment: Students will understand and apply scientific concepts, principles, and theories pertaining to the physical setting and living environment and recognize the historical development of ideas in science.
L.4.1: Living things are both similar to and different from each other and from nonliving things.
4.1.1. Explain how diversity of populations within ecosystems relates to the stability of ecosystems.
Flip Charts Animal Life Cycles
Flip Charts Vertebrates
Vocabulary Terms Vertebrates II
Quiz, Flash Cards, Worksheet, Game Vertebrates II
 
4.1.2. Describe and explain the structures and functions of the human body at different organizational levels (e.g., systems, tissues, cells, organelles).
Multimedia Lesson Cells
Multimedia Lesson Light and Optics
Interactive/Simulation Cardiovascular System
Interactive/Simulation Digestive System
Interactive/Simulation Excretory System
Interactive/Simulation Respiratory System
Interactive/Simulation The Immune System
Interactive/Simulation The Male Reproductive System
Interactive/Simulation The Skin
Presentations Body Organization
Presentations Muscular System
Presentations Nervous System
Presentations Process of Digestion
Presentations Refraction and lenses
Presentations Skeletal System
Presentations Specialized Cells
Presentations The Immune Response
Flip Charts The Immune System
Flip Charts The Nervous System
 
4.1.3. Explain how a one-celled organism is able to function despite lacking the levels of organization present in more complex organisms.
Multimedia Lesson Cells
Multimedia Lesson Protists: Pond Microlife
Multimedia Lesson Six Kingdoms of Life
Presentations Amoeba
Presentations Animal-Like Protists
Presentations Euglena
Presentations Fungi
Presentations Organization of Cells
Presentations Paramecium
Presentations Plant-Like Protists
Presentations Protists
Presentations Volvox
Presentations What Is a Protist?
 
L.4.2: Organisms inherit genetic information in a variety of ways that result in continuity of structure and function between parents and offspring.
4.2.1. Explain how the structure and replication of genetic material result in offspring that resemble their parents.
Multimedia Lesson Chromosomes, Genes and DNA
Interactive/Simulation Chromosome and DNA Structure
Interactive/Simulation Deciphering the DNA Code
Presentations Chromosomes
Presentations DNA
Presentations Genes
Presentations The Genetic Code
Flip Charts Cell Cycle
Flip Charts Chromosomes
Flip Charts Chromosomes
Flip Charts Codominance
Flip Charts DNA
Flip Charts DNA Replication
Flip Charts DNA/RNA Structure
Flip Charts Genes
Flip Charts Genes and Heredity
Flip Charts Gregor Mendel
Flip Charts How Genes Work
Flip Charts Making a Pedigree
Flip Charts Mitosis Overview
Flip Charts Mutations
Flip Charts Punnett Squares
Flip Charts The Genetic Code
Vocabulary Terms Genetics and heredity I
Vocabulary Terms Genetics and heredity II
Quiz, Flash Cards, Worksheet, Game Cell Reproduction
Quiz, Flash Cards, Worksheet, Game Genetics and heredity I
Quiz, Flash Cards, Worksheet, Game Genetics and heredity II
Quiz, Flash Cards, Worksheet, Game Nucleic acids and protein synthesis
 
4.2.2. Explain how the technology of genetic engineering allows humans to alter genetic makeup of organisms.
Flip Charts Gene Technology
 
L.4.3: Individual organisms and species change over time.
4.3.1. Explain the mechanisms and patterns of evolution.
Multimedia Lesson Six Kingdoms of Life
Presentations Classification
Presentations Six Kingdoms Overview
Flip Charts Classification
Flip Charts Fungi
Flip Charts The Six Kingdoms
Quiz, Flash Cards, Worksheet, Game Evolution and classification
 
L.4.4: The continuity of life is sustained through reproduction and development.
4.4.1. Explain how organisms, including humans, reproduce their own kind.
Multimedia Lesson Meiosis
Interactive/Simulation The Male Reproductive System
Presentations Sexual Reproduction
Quiz, Flash Cards, Worksheet, Game Plant structure and function
 
L.4.5: Organisms maintain a dynamic equilibrium that sustains life.
4.5.1. Explain the basic biochemical processes in living organisms and their importance in maintaining dynamic equilibrium.
Virtual Lab Nerve Conduction
Presentations Body Organization
Presentations Endocrine System
Flip Charts Blood and Lymph
Flip Charts Body Organization
Flip Charts Food and Nutrients
Flip Charts Homeostasis
Flip Charts Inflammation
Flip Charts Joints
Flip Charts Lung Disease
Flip Charts The Senses
Flip Charts Types of Nutrients
Vocabulary Terms Human biology I
Vocabulary Terms Human biology II
Quiz, Flash Cards, Worksheet, Game Human biology I
Quiz, Flash Cards, Worksheet, Game Human biology II
 
4.5.3. Relate processes at the system level to the cellular level in order to explain dynamic equilibrium in multicelled organisms.
Presentations Body Organization
Flip Charts Blood and Lymph
Flip Charts Body Organization
Flip Charts Food and Nutrients
Flip Charts Homeostasis
Flip Charts Inflammation
Flip Charts Joints
Flip Charts Lung Disease
Flip Charts The Senses
Flip Charts Types of Nutrients
Vocabulary Terms Human biology I
Vocabulary Terms Human biology II
Quiz, Flash Cards, Worksheet, Game Human biology I
Quiz, Flash Cards, Worksheet, Game Human biology II
 
L.4.6: Plants and animals depend on each other and their physical environment.
4.6.3. Explain how the living and nonliving environments change over time and respond to disturbances.
Multimedia Lesson Earth's Climate
Presentations Global Warming
 
L.4.7: Human decisions and activities have had a profound impact on the physical and living environment.
4.7.1. Describe the range of interrelationships of humans with the living and nonliving environment.
Multimedia Lesson Earth's Climate
Presentations Global Warming
 
4.7.2. Explain the impact of technological development and growth in the human population on the living and nonliving environment.
Multimedia Lesson Earth's Climate
Presentations Global Warming
 

NY.P.PHYSICAL SETTING / PHYSICS

PHYSICAL SETTING / PHYSICS
P.1. Analysis, Inquiry, and Design: Students will use mathematical analysis, scientific inquiry, and engineering design, as appropriate, to pose questions, seek answers, and develop solutions.
P.1.M1. MATHEMATICAL ANALYSIS: Abstraction and symbolic representation are used to communicate mathematically.
1.M1.1. Use algebraic and geometric representations to describe and compare data.
1.M1.1.ii. Represent physical quantities in graphical form.
Multimedia Lesson Forces and Motion
Presentations Motion
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
 
1.M1.1.iii. Construct graphs of real-world data (scatter plots, line or curve of best fit).
Multimedia Lesson Forces and Motion
Presentations Motion
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
 
1.M1.1.iv. Manipulate equations to solve for unknowns.
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Forces and Motion
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Interactive/Simulation Acceleration and Momentum
Interactive/Simulation Circuit
Interactive/Simulation Electrochemical Cell
Interactive/Simulation Electromagnetic Spectrum
Interactive/Simulation Forces - Friction
Interactive/Simulation Forms of Energy
Interactive/Simulation Interactions of Light
Interactive/Simulation Reflection and Lenses
Interactive/Simulation Reflection and Mirrors
Interactive/Simulation Simple Machines
Interactive/Simulation Sound Waves
Interactive/Simulation Tones and Overtones
Interactive/Simulation Transmission of Light
Interactive/Simulation Wave Interactions
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Presentations Motion
Presentations Waves
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
Quiz, Flash Cards, Worksheet, Game Momentum and Collisions
 
P.1.M2. MATHEMATICAL ANALYSIS: Deductive and inductive reasoning are used to reach mathematical conclusions.
1.M2.1. Use deductive reasoning to construct and evaluate conjectures and arguments, recognizing that patterns and relationships in mathematics assist them in arriving at these conjectures and arguments.
1.M2.1.i. Interpret graphs to determine the mathematical relationship between the variables.
Multimedia Lesson Forces and Motion
Virtual Lab Gas Laws
Presentations Motion
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
 
P.1.M3. MATHEMATICAL ANALYSIS: Critical thinking skills are used in the solution of mathematical problems.
1.M3.1. Apply algebraic and geometric concepts and skills to the solution of problems.
1.M3.1.i. Explain the physical relevance of properties of a graphical representation of real-world data, e.g., slope, intercepts, area under the curve.
Multimedia Lesson Forces and Motion
Virtual Lab Gas Laws
Presentations Motion
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
 
P.1.S1. SCIENTIFIC INQUIRY: The central purpose of scientific inquiry is to develop explanations of natural phenomena in a continuing, creative process.
1.S1.1. Develop extended visual models and mathematical formulations to represent an understanding of natural phenomena.
Multimedia Lesson Forces and Motion
Virtual Lab Gas Laws
Presentations Motion
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
 
1.S1.2. Clarify ideas through reasoning, research, and discussion.
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Forces and Motion
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Interactive/Simulation Acceleration and Momentum
Interactive/Simulation Circuit
Interactive/Simulation Electrochemical Cell
Interactive/Simulation Electromagnetic Spectrum
Interactive/Simulation Forces - Friction
Interactive/Simulation Forms of Energy
Interactive/Simulation Interactions of Light
Interactive/Simulation Reflection and Lenses
Interactive/Simulation Reflection and Mirrors
Interactive/Simulation Simple Machines
Interactive/Simulation Sound Waves
Interactive/Simulation Tones and Overtones
Interactive/Simulation Transmission of Light
Interactive/Simulation Wave Interactions
Virtual Lab Exploring Pulleys
 
P.1.S2. SCIENTIFIC INQUIRY: Beyond the use of reasoning and consensus, scientific inquiry involves the testing of proposed explanations involving the use of conventional techniques and procedures and usually requiring considerable ingenuity.
1.S2.4. Carry out a research plan for testing explanations, including selecting and developing techniques, acquiring and building apparatus, and recording observations as necessary. (Note: This could apply to many activities from simple investigations to long-term projects.)
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Forces and Motion
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Virtual Lab Circuit Building
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Gas Laws
Virtual Lab Mirrors and Lenses
Virtual Lab Speed of Sound
Quiz, Flash Cards, Worksheet, Game Lab Investigations
Quiz, Flash Cards, Worksheet, Game The Science of Chemistry
Quiz, Flash Cards, Worksheet, Game The Science of Physics
 
P.1.S3. SCIENTIFIC INQUIRY: The observations made while testing proposed explanations, when analyzed using conventional and invented methods, provide new insights into phenomena.
1.S3.2. Apply statistical analysis techniques when appropriate to test if chance alone explains the result.
1.S3.2.i. Examine collected data to evaluate the reliability of experimental results, including percent error, range, standard deviation, line of best fit, and the use of the correct number of significant digits
Multimedia Lesson Forces and Motion
Multimedia Lesson Sound
Virtual Lab Speed of Sound
Presentations Motion
 
1.S3.3. Assess correspondence between the predicted result contained in the hypothesis and the actual result, and reach a conclusion as to whether or not the explanation on which the prediction was based is supported.
Multimedia Lesson Sound
Virtual Lab Speed of Sound
 
P.2. Information Systems: Students will access, generate, process, and transfer information, using appropriate technologies.
P.2.1. Information technology is used to retrieve, process, and communicate information as a tool to enhance learning.
2.1.2. Prepare multimedia presentations demonstrating a clear sense of audience and purpose. (Note: Multimedia may include posters, slides, images, presentation software, etc.)
2.1.2.ii. Use appropriate technology to gather experimental data, develop models, and present results.
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Sound
Virtual Lab Circuit Building
Quiz, Flash Cards, Worksheet, Game Lab Investigations
Quiz, Flash Cards, Worksheet, Game The Science of Chemistry
Quiz, Flash Cards, Worksheet, Game The Science of Physics
 
P.4. The Physical Setting: Students will understand and apply scientific concepts, principles, and theories pertaining to the physical setting and living environment and recognize the historical development of ideas in science.
P.4.4. Energy exists in many forms, and when these forms change energy is conserved.
4.4.1. Observe and describe transmission of various forms of energy.
4.4.1.i. Describe and explain the exchange among potential energy, kinetic energy, and internal energy for simple mechanical systems, such as a pendulum, a roller coaster, a spring, a freely falling object.
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Forces and Motion
Presentations Forms of Energy
Presentations Gravity
Quiz, Flash Cards, Worksheet, Game Chemical Reactions
Quiz, Flash Cards, Worksheet, Game Electricity and Electrical Energy - Set I
Quiz, Flash Cards, Worksheet, Game Electricity and Electrical Energy - Set II
Quiz, Flash Cards, Worksheet, Game Forces - Set I
Quiz, Flash Cards, Worksheet, Game Forces - Set II
Quiz, Flash Cards, Worksheet, Game Heat
Quiz, Flash Cards, Worksheet, Game Kinetics and Equilibrium
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
Quiz, Flash Cards, Worksheet, Game Matter and Energy
Quiz, Flash Cards, Worksheet, Game Momentum and Collisions
Quiz, Flash Cards, Worksheet, Game Rotational Motion/Universal Gravitation
Quiz, Flash Cards, Worksheet, Game Work and Energy
 
4.4.1.ii. Predict velocities, heights, and spring compressions based on energy conservation.
Multimedia Lesson Energy: Forms and Changes
 
4.4.1.iii. Determine the energy stored in a spring.
Quiz, Flash Cards, Worksheet, Game Forces - Set I
Quiz, Flash Cards, Worksheet, Game Forces - Set II
 
4.4.1.ix. Use measurements to determine the resistance of a circuit element.
Multimedia Lesson Electricity and Magnetism
Presentations Electric Current
Quiz, Flash Cards, Worksheet, Game Electric Circuits
Quiz, Flash Cards, Worksheet, Game Modern Electronics
 
4.4.1.v. Observe and explain energy conversions in real-world situations.
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Energy: Forms and Changes
Presentations Electric Current
Quiz, Flash Cards, Worksheet, Game States of Matter
 
4.4.1.vi. Recognize and describe conversions among different forms of energy in real or hypothetical devices such as a motor, a generator, a photocell, a battery.
Multimedia Lesson Atoms and Chemical Bonding
Multimedia Lesson Electricity and Magnetism
Presentations Electric Current
Presentations Ionic Bonding
Quiz, Flash Cards, Worksheet, Game Electromagnetism
 
4.4.1.vii. Compare the power developed when the same work is done at different rates.
Presentations Machines and Work
Presentations Power
Presentations What Is Work?
Quiz, Flash Cards, Worksheet, Game Work and Energy
 
4.4.1.viii. Measure current and voltage in a circuit.
Multimedia Lesson Electricity and Magnetism
Presentations Electric Current
Quiz, Flash Cards, Worksheet, Game Electric Circuits
 
4.4.1.x. Interpret graphs of voltage versus current.
Multimedia Lesson Electricity and Magnetism
Presentations Electric Current
Quiz, Flash Cards, Worksheet, Game Electric Circuits
 
4.4.1.xi. Measure and compare the resistance of conductors of various lengths and cross-sectional areas.
Multimedia Lesson Electricity and Magnetism
Presentations Electric Current
Quiz, Flash Cards, Worksheet, Game Electric Circuits
Quiz, Flash Cards, Worksheet, Game Modern Electronics
 
4.4.1.xii. Construct simple series and parallel circuits.
Multimedia Lesson Electricity and Magnetism
Presentations Electric Circuits
 
4.4.1.xiii. Draw and interpret circuit diagrams which include voltmeters and ammeters.
Multimedia Lesson Electricity and Magnetism
Presentations Electric Circuits
Quiz, Flash Cards, Worksheet, Game Electric Circuits
 
4.4.1.xiv. Predict the behavior of lightbulbs in series and parallel circuits.
Multimedia Lesson Electricity and Magnetism
Presentations Electric Circuits
 
4.4.1.xv. Map the magnetic field of a permanent magnet, indicating the direction of the field between the N (north-seeking) and S (south-seeking) poles.
Multimedia Lesson Electricity and Magnetism
Presentations Magnetism
Quiz, Flash Cards, Worksheet, Game Electromagnetism
Quiz, Flash Cards, Worksheet, Game Magnetism
 
4.4.3. Explain variations in wavelength and frequency in terms of the source of the vibrations that produce them, e.g., molecules, electrons, and nuclear particles.
4.4.3.i. Compare the characteristics of two transverse waves such as amplitude, frequency, wavelength, speed, period, and phase.
Multimedia Lesson Sound
Presentations Waves
Quiz, Flash Cards, Worksheet, Game Vibrations and Waves
 
4.4.3.ii. Draw wave forms with various characteristics.
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Interactive/Simulation Sound Waves
Presentations Light
Presentations Sound and Sound Waves
Presentations Waves
Quiz, Flash Cards, Worksheet, Game Magnetism
Quiz, Flash Cards, Worksheet, Game Vibrations and Waves
 
4.4.3.iii. Identify nodes and antinodes in standing waves.
Multimedia Lesson Sound
Presentations Musical Sounds
Presentations Wave Interactions
Quiz, Flash Cards, Worksheet, Game Sound
 
4.4.3.iv. Differentiate between transverse and longitudinal waves.
Multimedia Lesson Sound
Interactive/Simulation Sound Waves
Presentations Waves
Quiz, Flash Cards, Worksheet, Game Vibrations and Waves
 
4.4.3.v. Determine the speed of sound in air.
Multimedia Lesson Sound
Virtual Lab Speed of Sound
Presentations Sound and Sound Waves
 
4.4.3.vi. Predict the superposition of two waves interfering constructively and destructively (indicating nodes, antinodes, and standing waves).
Multimedia Lesson Sound
Presentations Musical Sounds
Presentations Wave Interactions
Quiz, Flash Cards, Worksheet, Game Sound
Quiz, Flash Cards, Worksheet, Game Vibrations and Waves
 
4.4.3.vii. Observe, sketch, and interpret the behavior of wave fronts as they reflect, refract, and diffract.
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Presentations Interactions of Light
Presentations Sound and Sound Waves
Presentations Wave Interactions
Quiz, Flash Cards, Worksheet, Game Vibrations and Waves
 
4.4.3.viii. Draw ray diagrams to represent the reflection and refraction of waves.
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Presentations Interactions of Light
Presentations Sound and Sound Waves
Presentations Wave Interactions
Quiz, Flash Cards, Worksheet, Game Vibrations and Waves
 
P.4.5. Energy and matter interact through forces that result in changes in motion.
4.5.1. Explain and predict different patterns of motion of objects (e.g., linear and uniform circular motion, velocity and acceleration, momentum and inertia).
4.5.1.i. Construct and interpret graphs of position, velocity, or acceleration versus time.
Multimedia Lesson Forces and Motion
Presentations Motion
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
 
4.5.1.ii. Determine and interpret slopes and areas of motion graphs.
Multimedia Lesson Forces and Motion
Presentations Motion
 
4.5.1.ix. Verify Newton's Second Law for linear motion.
Multimedia Lesson Forces and Motion
Presentations Newton`s Laws
 
4.5.1.viii. Use vector diagrams to analyze mechanical systems (equilibrium and nonequilibrium).
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
 
4.5.1.xi. Verify Newton's Second Law for uniform circular motion.
Quiz, Flash Cards, Worksheet, Game Forces - Set I
Quiz, Flash Cards, Worksheet, Game Forces - Set II
Quiz, Flash Cards, Worksheet, Game Rotational Motion/Universal Gravitation
 
4.5.1.xii. Verify conservation of momentum.
Multimedia Lesson Forces and Motion
Virtual Lab Forces and Motion
 
4.5.1.xiii. Determine a spring constant.
Quiz, Flash Cards, Worksheet, Game Forces - Set I
Quiz, Flash Cards, Worksheet, Game Forces - Set II
 
4.5.3. Compare energy relationships within an atom's nucleus to those outside the nucleus.
4.5.3.i. Interpret energy-level diagrams.
Multimedia Lesson Atoms and Chemical Bonding
Quiz, Flash Cards, Worksheet, Game Atomic Structure - Set I
Quiz, Flash Cards, Worksheet, Game Atomic Structure - Set II
 
P.6. Interconnectedness: Common Themes: Students will understand the relationships and common themes that connect mathematics, science, and technology and apply the themes to these and other areas of learning.
P.6.3. The grouping of magnitudes of size, time, frequency, and pressures or other units of measurement into a series of relative order provides a useful way to deal with the immense range and the changes in scale that affect the behavior and design of systems.
6.3.1. Describe the effects of changes in scale on the functioning of physical, biological, or designed systems.
Multimedia Lesson Light and Optics
Virtual Lab Mirrors and Lenses
 
P.6.4. Equilibrium is a state of stability due either to a lack of change (static equilibrium) or a balance between opposing forces (dynamic equilibrium).
6.4.1. Describe specific instances of how disturbances might affect a system's equilibrium, from small disturbances that do not upset the equilibrium to larger disturbances (threshold level) that cause the system to become unstable.
Quiz, Flash Cards, Worksheet, Game Forces - Set I
Quiz, Flash Cards, Worksheet, Game Forces - Set II
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
Quiz, Flash Cards, Worksheet, Game Rotational Motion/Universal Gravitation
 
6.4.2. Cite specific examples of how dynamic equilibrium is achieved by equality of change in opposing directions.
Quiz, Flash Cards, Worksheet, Game Forces - Set I
Quiz, Flash Cards, Worksheet, Game Forces - Set II
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
Quiz, Flash Cards, Worksheet, Game Rotational Motion/Universal Gravitation
 
P.6.5. Identifying patterns of change is necessary for making predictions about future behavior and conditions.
6.5.1. Use sophisticated mathematical models, such as graphs and equations of various algebraic or trigonometric functions.
6.5.1.i. Predict the behavior of physical systems, using mathematical models such as graphs and equations.
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Forces and Motion
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Interactive/Simulation Acceleration and Momentum
Interactive/Simulation Circuit
Interactive/Simulation Electrochemical Cell
Interactive/Simulation Electromagnetic Spectrum
Interactive/Simulation Forces - Friction
Interactive/Simulation Forms of Energy
Interactive/Simulation Interactions of Light
Interactive/Simulation Reflection and Lenses
Interactive/Simulation Reflection and Mirrors
Interactive/Simulation Simple Machines
Interactive/Simulation Sound Waves
Interactive/Simulation Tones and Overtones
Interactive/Simulation Transmission of Light
Interactive/Simulation Wave Interactions
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Gas Laws
Presentations Machines and Work
Presentations Motion
Presentations Newton`s Laws
Presentations Power
Presentations What Is Work?
Quiz, Flash Cards, Worksheet, Game Forces - Set I
Quiz, Flash Cards, Worksheet, Game Forces - Set II
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
Quiz, Flash Cards, Worksheet, Game Momentum and Collisions
Quiz, Flash Cards, Worksheet, Game Properties of Matter
Quiz, Flash Cards, Worksheet, Game Rotational Motion/Universal Gravitation
Quiz, Flash Cards, Worksheet, Game Work and Energy
 
6.5.2. Search for multiple trends when analyzing data for patterns, and identify data that do not fit the trends.
6.5.2.i. Deduce patterns from the organization and presentation of data.
Multimedia Lesson Forces and Motion
Multimedia Lesson Sound
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Speed of Sound
 
6.5.2.ii. Identify and develop models, using patterns in data.
Multimedia Lesson Forces and Motion
Multimedia Lesson Sound
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Speed of Sound
 
P.6.6. In order to arrive at the best solution that meets criteria within constraints, it is often necessary to make trade-offs.
6.6.1. Determine optimal solutions to problems that can be solved using quantitative methods.
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Forces and Motion
Multimedia Lesson Sound
Virtual Lab Forces and Motion
Presentations Motion
Presentations Waves
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set I
Quiz, Flash Cards, Worksheet, Game Laws of Motion - Set II
Quiz, Flash Cards, Worksheet, Game Momentum and Collisions
 
P.7. Interdisciplinary Problem Solving: Students will apply the knowledge and thinking skills of mathematics, science, and technology to address real-life problems and make informed decisions.
P.7.1. The knowledge and skills of mathematics, science, and technology are used together to make informed decisions and solve problems, especially those relating to issues of science/ technology/society, consumer decision making, design, and inquiry into phenomena.
7.1.1. Address real-world problems, using scientific methodology.
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Light and Optics
Multimedia Lesson Sound
Virtual Lab Exploring Pulleys
Presentations Compound Machines
Presentations Musical Sounds
Presentations Refraction and lenses
 
P.7.2. Solving interdisciplinary problems involves a variety of skills and strategies, including effective work habits; gathering and processing information; generating and analyzing ideas; realizing ideas; making connections among the common themes of mathematics, science, and technology; and presenting results.
7.2.1. Collect, analyze, interpret, and present data, using appropriate tools.
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Sound
Virtual Lab Circuit Building
Quiz, Flash Cards, Worksheet, Game Lab Investigations
Quiz, Flash Cards, Worksheet, Game The Science of Chemistry
Quiz, Flash Cards, Worksheet, Game The Science of Physics
 
7.2.2. If students participate in an extended, culminating mathematics, science, and technology project, then students should:
7.2.2.ii. Gather and process information
Multimedia Lesson Forces and Motion
Multimedia Lesson Sound
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Speed of Sound
 
7.2.2.iii. Generate and analyze ideas
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Forces and Motion
Multimedia Lesson Light and Optics
Virtual Lab Circuit Building
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Gas Laws
Virtual Lab Mirrors and Lenses
 
7.2.2.iv. Observe common themes
Multimedia Lesson Energy: Forms and Changes
Multimedia Lesson Light and Optics
Virtual Lab Gas Laws
Virtual Lab Mirrors and Lenses
 
7.2.2.v. Realize ideas
Multimedia Lesson Electricity and Magnetism
Multimedia Lesson Forces and Motion
Multimedia Lesson Light and Optics
Virtual Lab Circuit Building
Virtual Lab Exploring Pulleys
Virtual Lab Forces and Motion
Virtual Lab Gas Laws
Virtual Lab Mirrors and Lenses
 
 
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