Home / Next Generation Science Standards for Essential Physics 3rd Edition
Standards & Correlations
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| Standard | Description | Correlation Type |
|---|---|---|
| NGSS-HS-DCI-PS1.C | Nuclear Processes | |
| NGSS-HS-DCI-PS1.C-1 | Nuclear processes, including fusion, fission, and radioactive decays of unstable nuclei, involve release or absorption of energy. The total number of neutrons plus protons does not change in any nuclear process. | N/A |
| NGSS-HS-DCI-PS1.C-1-1 | The nuclear process of fusion can involve the release or absorption of energy. | SB Content SB Content SB Assess TE Assess |
| NGSS-HS-DCI-PS1.C-1-2 | The nuclear process of fission can involve the release or absorption of energy. | SB Content SB Content SB Assess TE Assess |
| NGSS-HS-DCI-PS1.C-1-3 | The nuclear process of radioactive decay can involve the release or absorption of energy. | SB Content SB Content SB Content SB Content SB Assess TE Assess |
| NGSS-HS-DCI-PS1.C-1-4 | The total number of neutrons plus protons does not change in any nuclear process. | SB Content SB Content SB Assess TE Assess |
| NGSS-HS-DCI-PS2.A | Forces and Motion | |
| NGSS-HS-DCI-PS2.A-1 | Newton's second law accurately predicts changes in the motion of macroscopic objects. | N/A |
| NGSS-HS-DCI-PS2.A-1-1 | Newton's second law relates the acceleration of an object to its mass and the net force on it. | SB Content SB Content SB Assess SB Assess SB Assess SB Assess TE Assess TE Assess TE Assess TE Assess |
| NGSS-HS-DCI-PS2.A-1-2 | Newton's second law accurately predicts changes in the motion of macroscopic objects. | SB Content SB Content SB Content |
| NGSS-HS-DCI-PS2.A-2 | Momentum is defined for a particular frame of reference; it is the mass times the velocity of the object. | N/A |
| NGSS-HS-DCI-PS2.A-2-1 | Momentum is mass times the velocity of the object. | SB Content SB Content SB Content SB Assess SB Assess SB Assess TE Assess TE Assess TE Assess |
| NGSS-HS-DCI-PS2.A-2-2 | Momentum is defined for a particular frame of reference. | SB Content SB Content SB Content SB Assess SB Assess TE Assess TE Assess |
| NGSS-HS-DCI-PS2.A-3 | If a system interacts with objects outside itself, the total momentum of the system can change; however, any such change is balanced by changes in the momentum of objects outside the system. | SB Content SB Content SB Assess SB Assess TE Assess TE Assess |
| NGSS-HS-DCI-PS2.B | Types of Interactions | |
| NGSS-HS-DCI-PS2.B-1 | Newton's law of universal gravitation and Coulomb's law provide the mathematical models to describe and predict the effects of gravitational and electrostatic forces between distant objects. | |
| NGSS-HS-DCI-PS2.B-1-1 | Newton's law of universal gravitation provides the mathematical model to describe and predict the effects of the gravitational force between distant objects. | SB Content SB Content SB Content SB Assess SB Assess SB Assess TE Assess TE Assess TE Assess |
| NGSS-HS-DCI-PS2.B-1-2 | Coulomb's law provides the mathematical model to describe and predict the effects of the electrostatic force between distant objects. | SB Content SB Content SB Assess SB Assess SB Assess TE Assess TE Assess TE Assess |
| NGSS-HS-DCI-PS2.B-2 | Forces at a distance are explained by fields (gravitational, electric, and magnetic) permeating space that can transfer energy through space. Magnets or electric currents cause magnetic fields; electric charges or changing magnetic fields cause electric fields. | |
| NGSS-HS-DCI-PS2.B-2-1 | Forces at a distance are explained by fields (gravitational, electric, and magnetic) permeating space that can transfer energy through space. | SB Content SB Content SB Content SB Content SB Content SB Assess SB Assess SB Assess TE Assess TE Assess TE Assess |
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