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... than the neutral one (< 1000K) Velocity and population distributions deviate from the equibrium laws i.e. Maxwell and Boltzmann respectively ...
... than the neutral one (< 1000K) Velocity and population distributions deviate from the equibrium laws i.e. Maxwell and Boltzmann respectively ...
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... State Newton’s first law. State the condition for translational equilibrium. Newton’s first law is drawn from his concept of net force and Galileo’s concept of inertia. Essentially, Newton’s first law says that the velocity of an object will not change if there is no net force acting on it. v = 0 ...
... State Newton’s first law. State the condition for translational equilibrium. Newton’s first law is drawn from his concept of net force and Galileo’s concept of inertia. Essentially, Newton’s first law says that the velocity of an object will not change if there is no net force acting on it. v = 0 ...
Chapter 4
... An object in equilibrium has no net external force acting on it, and the second law, in component form, implies that ΣFx = 0 and ΣFy = 0 for such an object. These two equations are useful for solving problems where the object is at rest or moving at constant velocity. ...
... An object in equilibrium has no net external force acting on it, and the second law, in component form, implies that ΣFx = 0 and ΣFy = 0 for such an object. These two equations are useful for solving problems where the object is at rest or moving at constant velocity. ...
