Home / Next Generation Science Standards for Essential Physics 3rd Edition
Standards & Correlations
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| Standard | Description | Correlation Type |
|---|---|---|
| NGSS-HS-DCI-PS2.B-2-5 | Changing magnetic fields create electric fields. | SB Content SB Content SB Content SB Assess SB Assess TE Assess TE Assess |
| NGSS-HS-DCI-PS3.A | Definitions of Energy | |
| NGSS-HS-DCI-PS3.A-1 | Energy is a quantitative property of a system that depends on the motion and interactions of matter and radiation within that system. That there is a single quantity called energy is due to the fact that a system's total energy is conserved, even as, within the system, energy is continually transferred from one object to another and between its various possible forms. | |
| NGSS-HS-DCI-PS3.A-1-1 | Energy is a quantitative property of a system that depends on the motion of matter within that system. | SB Content SB Content SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-1-2 | Energy is a quantitative property of a system that depends on the interactions of matter within that system. | SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-1-3 | Energy is a quantitative property of a system that depends on the radiation within that system. | SB Content SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-1-4 | A system's total energy is conserved. | SB Content SB Content SB Content SB Content SB Content SB Assess TE Assess |
| NGSS-HS-DCI-PS3.A-1-5 | Energy can be continually transferred from one object to another and between its various possible forms within a system. | SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-2 | At the macroscopic scale, energy manifests itself in multiple ways, such as in motion, sound, light, and thermal energy. | SB Content SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-3 | These relationships are better understood at the microscopic scale, at which all of the different manifestations of energy can be modeled as a combination of energy associated with the motion of particles and energy associated with the configuration (relative position of the particles). In some cases the relative position energy can be thought of as stored in fields (which mediate interactions between particles). This last concept includes radiation, a phenomenon in which energy stored in fields moves across space. | |
| NGSS-HS-DCI-PS3.A-3-1 | At the microscopic scale, all of the different manifestations of energy can be modeled as a combination of energy associated with the motion of particles and energy associated with the configuration (relative position of the particles). | SB Content SB Content SB Content SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-3-2 | In some cases the relative position energy can be thought of as stored in fields (which mediate interactions between particles). | SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-3-3 | Radiation is a phenomenon in which energy stored in fields moves across space. | SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-4 | "Electrical energy" may mean energy stored in a battery or energy transmitted by electric currents. | |
| NGSS-HS-DCI-PS3.A-4-1 | "Electrical energy" may mean energy stored in a battery. | SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.A-4-2 | "Electrical energy" may mean energy transmitted by electric currents. | SB Content SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.B | Conservation of Energy and Energy Transfer | |
| NGSS-HS-DCI-PS3.B-1 | Conservation of energy means that the total change of energy in any system is always equal to the total energy transferred into or out of the system. | SB Content SB Content SB Content SB Content SB Content |
| NGSS-HS-DCI-PS3.B-2 | Energy cannot be created or destroyed, but it can be transported from one place to another and transferred between systems. | N/A |
| NGSS-HS-DCI-PS3.B-2-1 | Energy cannot be created or destroyed. | SB Content SB Content SB Content SB Content |
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