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Special | 14m 17s | We compare and contrast concave and convex lenses by drawing ray diagrams. (14m 17s)
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Special | 9m 21s | We compare and contrast closed-ended, open-ended, and closed-on-one-end tubes. (9m 21s)
Closer Look 6D & 6H Diffraction & Interference
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Special | 9m 51s | We explore double and single slit example problems involving light and sound waves. (9m 51s)
Closer Look 4H Conservation of Energy
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Special | 11m | In this Closer Look segment, we explore several examples of the Conservation of Energy. (11m)
Closer Look 2D Graphing Motion -Advanced
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Special | 11m 15s | We compare and contrast the effects complicated motion has on various factors. (11m 15s)
Closer Look 5C: Coulomb’s Law - ADVANCED
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Special | 17m 7s | We dive deeper into Coulomb's Law with an advanced look at charges. (17m 7s)
Closer Look 3D: Newton’s 2nd Law Statements - ADVANCED
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Special | 12m 35s | We look at multiple forces acting on an object in one dimension and on an incline. (12m 35s)
Closer Look 2G: Projectile Motion - ADVANCED
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Special | 12m 17s | We investigate projectiles launched at an angle. (12m 17s)
Closer Look 1F: 2D Vector Analysis - ADVANCED
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Special | 9m 26s | We analyze vectors in two dimensions by looking at the relative velocity of a boat. (9m 26s)
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Special | 15m 49s | We use a V.I.R. chart to help us solve series, parallel, and complex circuits problems. (15m 49s)
Closer Look 4B: Conservation of Momentum
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Special | 7m 4s | We solve problems pertaining to the Conservation of Momentum using various scenarios. (7m 4s)
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Special | 7m 15s | We explore the world of radioactivity by calculating the half-life of various substances. (7m 15s)
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Special | 12m 18s | We compare and contrast concave and convex mirrors by drawing ray diagrams. (12m 18s)
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Special | 7m 12s | Coulomb's law is broken down with examples such as solving for electrostatic force. (7m 12s)
Closer Look 5B: Friction, Conduction, and Induction
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Special | 9m 53s | We explain and illustrate charging by friction, conduction, and induction. (9m 53s)
Closer Look 3G: Circular Motion
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Special | 10m 36s | We solve for centripetal acceleration, centripetal force, and tangential velocity. (10m 36s)
Closer Look 3C: Newton’s Second Law statements
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Special | 4m 17s | We solve for forces in one dimension and combine kinematic equations with Newton's 2nd Law (4m 17s)
Closer Look 3B: Free Body Diagrams
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Special | 5m 37s | We break down how to draw free body diagrams and work through three different examples. (5m 37s)
Closer Look 2C: Kinematic Equations
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Special | 6m 35s | We investigate motion in one dimension by solving three problems using Kinematic equations (6m 35s)
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Physics in Motion is a local public television program presented by GPB