### 2: Develop an understanding of concepts related to forces and motion.

#### 2.d: Apply the effects of the universal gravitation law to graph and interpret the force between two masses, acceleration due to gravity, and planetary motion.

2.d.1: Situations where g is constant (falling bodies)

2.d.2: Concept of centripetal acceleration undergoing uniform circular motion

2.d.3: Kepler?s third law

2.d.4: Oscillatory motion and the mechanics of waves

### 3: Develop an understanding of concepts related to work and energy.

#### 3.a: Explain and apply the conservation of energy and momentum.

3.a.1: Concept of work and applications

3.a.2: Concept of kinetic energy, using the elementary work-energy theorem

3.a.3: Concept of conservation of energy with simple examples

3.a.4: Concepts of energy, work, and power (qualitatively and quantitatively)

3.a.5: Principles of impulse in inelastic and elastic collisions

#### 3.d: Investigate and summarize the principles of thermodynamics.

3.d.2: Temperature and thermal energy as related to molecular motion and states of matter

3.d.3: Problems involving specific heat and heat capacity

3.d.4: First and second laws of thermodynamics as related to heat engines, refrigerators, and thermal efficiency

### 4: Discuss the characteristics and properties of light and sound.

#### 4.a: Describe and model the characteristics and properties of mechanical waves.

4.a.2: Relationships among wave characteristics such as velocity, period, frequency, amplitude, phase, and wavelength

4.a.4: Standing waves and waves in specific media (e.g., stretched string, water surface, air, etc.)

### 5: Apply an understanding of magnetism, electric fields, and electricity.

#### 5.a: Analyze and explain the relationship between electricity and magnetism.

5.a.2: Electric field, electric potential, current, voltage, and resistance as related to Ohm?s Law

5.a.3: Magnetic poles, magnetic flux and field, Ampère?s law and Faraday?s law

5.a.4: Coulomb?s Law

### 6: Analyze and explain concepts of nuclear physics.

#### 6.a: Analyze and explain the principles of nuclear physics.

6.a.1: The mass number and atomic number of the nucleus of an isotope of a given chemical element

6.a.3: Nuclear decay

#### 6.b: Defend the wave-particle duality model of light, using observational evidence.

6.b.1: Quantum energy and emission spectra

6.b.2: Photoelectric and Compton effects

Correlation last revised: 9/16/2020

This correlation lists the recommended Gizmos for this state's curriculum standards. Click any Gizmo title below for more information.