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Fundamentals of Physics
Motion
Significant figures (2:53)
Instantaneous Velocity (3:18)
Particle under Constant Acceleration (1:30)
Equations of motion for constant acceleration (0:59)
Equations of Motion for Constant Acceleration (2) (0:59)
Kinematic Equations Derived from Calculus (5:35)
Vectors (9:11)
Projectile Motion (7:18)
Projectile Motion- Additional Example (15:44)
Uniform Circular Motion (6:01)
Uniform Circular Motion Extended (5:32)
Tension in Uniform Circular Motion- Additional Example (5:48)
Non-Uniform Circular Motion (2:33)
Forces and Equilibrium
The Concept of Force (1:18)
The Dot Product (4:22)
Newtons 1st Law (1:11)
Newtons 2nd law (1:12)
Newtons Second Law- Additional Example (9:17)
Newtons 3rd Law (1:08)
Particle in Equilibrium (1:45)
Particle under Constant Acceleration Extended (4:14)
Frictional Forces (1:20)
Systems and Environments (2:43)
System in Equilibrium- Additional Example (7:03)
Work and Energy
Work done by a Spring (2:29)
Kinetic Energy and the Work-Kinetic Energy Theorem (5:19)
Potential Energy of a System (1:09)
Conservative and non-Conservative Forces (3:11)
Equilibrium of Hanging Objects (5:11)
Non-Isolated Systems (2:33)
Kinetic Friction and Power (2:36)
Heat and Internal Energy (2:54)
Latent Heat (7:32)
Linear Thermal Expansion (4:57)
Thermal Expansion of Solids and Liquids (1:32)
Center of Mass and Linear Momentum
Centre of Mass (5:28)
Linear Momentum (5:11)
Linear Momentum- Additional Example (12:30)
Collisions in 1-Dimension (2:03)
Collisions in 2-Dimensions (3:35)
Calculus for Physics
Numbers (3:44)
Notation (5:30)
Inequalities (8:42)
Absolute Values (4:48)
Piecewise Functions (4:15)
Symmetry (2:45)
Radian Measure (5:36)
Composite Functions (5:24)
Continuity (4:52)
Intermediate Value Theorem (4:06)
Horizontal Asymtotes (2:49)
Derivatives and Rates of Change (6:31)
Derivatives of a Function (4:19)
Proof of Continuity for Differentiation (5:14)
Proof of The Power Rule (3:56)
Proof of the Product Rule (8:11)
Proof of the Quotient Rule (5:45)
Proof of the Derivative of sin(x) (8:06)
Proof of the Derivative of cos(x) (6:10)
Proof of the Derivative of tan(x) (3:06)
Proof of Limit 1 (6:04)
Proof of Limit 2 (2:32)
Proof of Limit 3 (4:06)
The Chain Rule (3:23)
Differentiation (3:13)
Derivative of arcsin(x) (3:59)
Derivative of arccos(x) (2:56)
Derivative of arctan(x) (2:28)
Derivative of ln(x) (1:47)
Max and Min Values (6:46)
Proof of Continuity for Differentiation
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