Rotational Motion Notes
... An object moving at constant speed in a circular path will have a zero change in angular speed, and therefore a zero angular acceleration. That object is changing its direction, however, and therefore has a changing linear velocity and a non-zero linear acceleration. It has an acceleration directed ...
... An object moving at constant speed in a circular path will have a zero change in angular speed, and therefore a zero angular acceleration. That object is changing its direction, however, and therefore has a changing linear velocity and a non-zero linear acceleration. It has an acceleration directed ...
U of S High School Physics Competition exam
... 11. A converging lens has a focal length f. Which one of the following types of images cannot be formed by this lens regardless of where the object is place? (A) An image that is on the other side of the lens as the object, is upside down, and larger than the object. (B) An image that is on the othe ...
... 11. A converging lens has a focal length f. Which one of the following types of images cannot be formed by this lens regardless of where the object is place? (A) An image that is on the other side of the lens as the object, is upside down, and larger than the object. (B) An image that is on the othe ...
Chapter 10 Clickers
... continually moving to keep the ladder from falling off his forehead. Why is this movement necessary? a) The clown is trying to apply a torque to the ladder in the direction opposite to other torques on the ladder. b) The clown is trying to keep the center of mass of the ladder directly above his hea ...
... continually moving to keep the ladder from falling off his forehead. Why is this movement necessary? a) The clown is trying to apply a torque to the ladder in the direction opposite to other torques on the ladder. b) The clown is trying to keep the center of mass of the ladder directly above his hea ...
mapping fields
... Which of the following would require the LEAST amount of force, if applied to the same ball? A. Stopping the ball that is rolling on a flat and smooth surface. B. Changing the direction of a ball that is rolling on a flat and smooth surface. C. Starting the ball in motion on a flat and smooth surfac ...
... Which of the following would require the LEAST amount of force, if applied to the same ball? A. Stopping the ball that is rolling on a flat and smooth surface. B. Changing the direction of a ball that is rolling on a flat and smooth surface. C. Starting the ball in motion on a flat and smooth surfac ...
Exp 04 - Coefficient of Friction
... 3) Give some examples in which the force of friction causes the object to accelerate. 4) If you push on a heavy box that is at rest, you must exert some force to start its motion. 5) However, once the box is in motion you need a smaller force to maintain that motion. Why? 6) Find the force needed to ...
... 3) Give some examples in which the force of friction causes the object to accelerate. 4) If you push on a heavy box that is at rest, you must exert some force to start its motion. 5) However, once the box is in motion you need a smaller force to maintain that motion. Why? 6) Find the force needed to ...
Correct Answer: C
... A body in SHM moves under a restoring force. The restoring force is always directed towards the equilibrium position. Displacement of a body in SHM is measured as the difference between the final position and the position of equilibrium. Amplitude in SHM is the maximum displacement of the body from ...
... A body in SHM moves under a restoring force. The restoring force is always directed towards the equilibrium position. Displacement of a body in SHM is measured as the difference between the final position and the position of equilibrium. Amplitude in SHM is the maximum displacement of the body from ...
HW4
... m/s2) = 6.6 kg. We choose +y upward and note there are two forces on the object: mg downward and T upward (in the cord that connects it to the balance; T is the reading on the scale by Newton’s third law). (a) “Upward at constant speed” means constant velocity, which means no acceleration. Thus, the ...
... m/s2) = 6.6 kg. We choose +y upward and note there are two forces on the object: mg downward and T upward (in the cord that connects it to the balance; T is the reading on the scale by Newton’s third law). (a) “Upward at constant speed” means constant velocity, which means no acceleration. Thus, the ...
Free fall
In Newtonian physics, free fall is any motion of a body where its weight is the only force acting upon it. In the context of general relativity, where gravitation is reduced to a space-time curvature, a body in free fall has no force acting on it and it moves along a geodesic. The present article only concerns itself with free fall in the Newtonian domain.An object in the technical sense of free fall may not necessarily be falling down in the usual sense of the term. An object moving upwards would not normally be considered to be falling, but if it is subject to the force of gravity only, it is said to be in free fall. The moon is thus in free fall.In a uniform gravitational field, in the absence of any other forces, gravitation acts on each part of the body equally and this is weightlessness, a condition that also occurs when the gravitational field is zero (such as when far away from any gravitating body). A body in free fall experiences ""0 g"".The term ""free fall"" is often used more loosely than in the strict sense defined above. Thus, falling through an atmosphere without a deployed parachute, or lifting device, is also often referred to as free fall. The aerodynamic drag forces in such situations prevent them from producing full weightlessness, and thus a skydiver's ""free fall"" after reaching terminal velocity produces the sensation of the body's weight being supported on a cushion of air.