Physics, 15.04.2020 20:13 rileyeddins1010

A 50 gram mass is hanging from a spring whose unstretched length is 10 cm? A 50 gram mass is hanging from a spring whose unstretched length is 10 cm and whose spring constant is 2.5 N/m. In the list below are described five situations. In some situations, the mass is at rest and remains at rest. In other situations, at the instant described, the mass is in the middle of an oscillation initiated by a person pulling the mass down and releasing it. Ignore both air resistance and internal damping in the spring. At the time the situation occurs, indicate whether the force vector requested points up, down, or has magnitude zero.

a. The force on the mass exerted by the spring when the mass is at its equilibrium position and is at rest.
b. The force on the mass exerted by the spring when the mass is at its equilibrium position and is moving downward.
c. The net force on the mass when the mass is at its equilibrium position and moving downward.
d. The force on the mass exerted by the spring when it is at the top of its oscillation.
e. The net force on the mass when it is at the top of its oscillation.

Answers: 3

Show answers

Another question on Physics

Physics, 22.06.2019 11:00

Positrons are spontaneously emitted from the nuclei of

Answers: 1

Answer

Physics, 22.06.2019 11:30

Arocket starts from rest and moves upward from the surface of the earth. for the first 10.0 s of its motion, the vertical acceleration of the rocket is given by ay = 12.80 m/s32t, where the +y-direction is upward. (a) what is the height of the rocket above the surface of the earth at t = 10.0 s? b) what is the speed of the rocket when it is 325 m above the surface of the earth?

Answers: 3

Answer

Physics, 22.06.2019 22:30

Atennis player used a tennis racket to hit a tennis ball with a mass of 0.25 kg with a force of 5.25 newtons. how does the force the tennis racket exerted on the tennis ball compare with the force the tennis ball exerted on the tennis racket? a. the force of the tennis racket on the tennis ball is equal in magnitude and opposite in direction to the force the tennis ball exerted on the tennis racket. b. the force of the tennis racket on the tennis ball is equal in magnitude and in the same direction as the force the tennis ball exerted on the tennis racket. c. the force of the tennis racket on the tennis ball is less in magnitude and in the same direction as the force the tennis ball exerted on the tennis racket. d. the force of the tennis racket on the tennis ball is greater in magnitude and opposite in direction as the force the tennis ball exerted on the tennis racket.

Answers: 1

Answer

Physics, 23.06.2019 00:00

Mixing salt in water is an example of physical change

Answers: 1

Answer

You know the right answer?

A 50 gram mass is hanging from a spring whose unstretched length is 10 cm? A 50 gram mass is hanging...

Questions