Home / Next Generation Science Standards for Essential Physics 3rd Edition
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Standard | Description | Correlation Type |
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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 |
NGSS-HS-DCI-PS2.B-2-2 | Magnets create magnetic fields. | SB Content SB Content SB Content SB Content SB Assess TE Assess |
NGSS-HS-DCI-PS2.B-2-3 | Electric currents create magnetic fields. | SB Content SB Content SB Content SB Content SB Content SB Assess SB Assess TE Assess TE Assess TE Assess |
NGSS-HS-DCI-PS2.B-2-4 | Electric charges create electric fields. | SB Content SB Content SB Assess SB Assess TE Assess TE Assess |