AP Test Free Response Questions
... 1996B2 (15 points) A spring that can be assumed to be ideal hangs from a stand, as shown above. a. You wish to determine experimentally the spring constant k of the spring. i. What additional, commonly available equipment would you need? ii. What measurements would you make? iii. How would k be dete ...
... 1996B2 (15 points) A spring that can be assumed to be ideal hangs from a stand, as shown above. a. You wish to determine experimentally the spring constant k of the spring. i. What additional, commonly available equipment would you need? ii. What measurements would you make? iii. How would k be dete ...
Solutions to Problems
... m long. If that were the case, she could not rise 1.4 m high. Instead she would wrap the vine around the tree branch. 34. The forces on the skier are gravity and the normal force. The normal force is perpendicular to the direction of motion, and so does no work. Thus the skier’s mechanical energy is ...
... m long. If that were the case, she could not rise 1.4 m high. Instead she would wrap the vine around the tree branch. 34. The forces on the skier are gravity and the normal force. The normal force is perpendicular to the direction of motion, and so does no work. Thus the skier’s mechanical energy is ...
Problems
... 14.23 . A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface. The amplitude of the motion is 0.120 m. The maximum speed of the block is 3.90 m> s. What is the maximum magnitude of the acceleration of the block? 14.24 . A small block is attached to a ...
... 14.23 . A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface. The amplitude of the motion is 0.120 m. The maximum speed of the block is 3.90 m> s. What is the maximum magnitude of the acceleration of the block? 14.24 . A small block is attached to a ...
Chapter 2
... 2. Bourdon Tubes. Bourdon tube, consists of a tube flattened to have an approximately elliptical cross-section and bent into either a C or twisted tube, or spiral or helical shape, as shown in fig. (2-6) (a.b). These are all formed from seamless metal tubing with wall thickness varying from 0.25 mm ...
... 2. Bourdon Tubes. Bourdon tube, consists of a tube flattened to have an approximately elliptical cross-section and bent into either a C or twisted tube, or spiral or helical shape, as shown in fig. (2-6) (a.b). These are all formed from seamless metal tubing with wall thickness varying from 0.25 mm ...
