Newton`s laws, part 1(Sep 20)
... (known as Galileo’s Principle, Law of Inertia, definition of an inertial reference frame) V" ...
... (known as Galileo’s Principle, Law of Inertia, definition of an inertial reference frame) V" ...
Work and Gravitational Potential Energy
... moving between two points is independent of the path the object takes between the points – The work depends only upon the initial and final positions of the object – Any conservative force can have a potential energy function associated with it Examples of conservative forces include: ...
... moving between two points is independent of the path the object takes between the points – The work depends only upon the initial and final positions of the object – Any conservative force can have a potential energy function associated with it Examples of conservative forces include: ...
Unit 4 study guide
... If there is no friction, the total energy of a system remains the same. If there is friction, the friction force does work on the system, and then the total energy of the system will change (energy is not conserved) ...
... If there is no friction, the total energy of a system remains the same. If there is friction, the friction force does work on the system, and then the total energy of the system will change (energy is not conserved) ...
Force, Momentum and Energy Newton`s Laws of Motion
... In the absence of a net force, an object moves with constant velocity • An object at rest will remains at rest unless a net force is applied to it. • An object in motion will continue to move with the same speed in the same direction unless a net force is applied to it. • Examples: – Spacecraft does ...
... In the absence of a net force, an object moves with constant velocity • An object at rest will remains at rest unless a net force is applied to it. • An object in motion will continue to move with the same speed in the same direction unless a net force is applied to it. • Examples: – Spacecraft does ...
Maximum displacement from equilibrium position during SHM Rate
... Distance from vibration, the time an object turns or centre of circle to for one complete rotates edge oscillation ...
... Distance from vibration, the time an object turns or centre of circle to for one complete rotates edge oscillation ...
Text 1 (1.1 What is physics?) Children have an insatiable curiosity
... Text 8 (21 Entropy and the second law of thermodynamics) The first law of thermodynamics is a statement of the conservation of energy. It allows any process that conserves energy to occur. Yet several processes consistent with the first law do not occur in nature. For example, an ice cube put in wat ...
... Text 8 (21 Entropy and the second law of thermodynamics) The first law of thermodynamics is a statement of the conservation of energy. It allows any process that conserves energy to occur. Yet several processes consistent with the first law do not occur in nature. For example, an ice cube put in wat ...
Impulse and Momentum Objectives. 1. Define momentum. 2
... 2. Distinguish between elastic and inelastic collisions. 3. Use conservation principles to solve problems involving elastic and inelatic collisions for initial velocity, final velocity or mass, given the other values. 4. Define impulse; distinguish between impulse and force. 5. Determine the impulse ...
... 2. Distinguish between elastic and inelastic collisions. 3. Use conservation principles to solve problems involving elastic and inelatic collisions for initial velocity, final velocity or mass, given the other values. 4. Define impulse; distinguish between impulse and force. 5. Determine the impulse ...
PROBLEM SET AP1 Vectors
... a. What is the magnitude and direction of the resultant force? b. What is the magnitude and direction of the equilibrant force? 2. A hiker leaves camp and walks 10 km due North and 10 km due West. a. What is the distance walked by the hiker? b. What is the displacement of the hiker from the starting ...
... a. What is the magnitude and direction of the resultant force? b. What is the magnitude and direction of the equilibrant force? 2. A hiker leaves camp and walks 10 km due North and 10 km due West. a. What is the distance walked by the hiker? b. What is the displacement of the hiker from the starting ...
