a) Has the period changed as a result of changing the angle of release? If so,...

a) Has the period changed as a result of changing the amplitude of release? If yes,...

a) Has the period changed as a result of changing the amplitude of release? If yes, explain how. b) Has the period changed as a result of changing the mass? If yes, explain how. c) Has the period changed as a result of changing the spring constant? If yes, explain how. d) Summarize findings from a) to c) stating the parameters that affect the period of the weighted spring as well as those parameters that do not have an effect....

Luke Skywalker (yes, one of the good guys!) has measured the period of a small angle...

Luke Skywalker (yes, one of the good guys!) has measured the period of a small angle pendulum on Earth and found that it is 0.650 s. a) What is the length of this pendulum? cm b) Luke takes this pendulum such that it is a distance 500km above the surface of the Earth. What will the period of the pendulum be here? s c) If Luke takes this pendulum to the surface of the planet Hoth where the acceleration of...

A simple pendulum consists of a ball of mass m suspended from the ceiling using a...

A simple pendulum consists of a ball of mass m suspended from the ceiling using a string of length L. The ball is displaced from its equilibrium position by a small angle θ and released. Which one of the following statements concerning this situation is correct? (a) If the mass were increased, the period of the pendulum would increase. (b) The frequency of the pendulum does not depend on the acceleration due to gravity. (c) If the length of the...

The free-fall acceleration on Mars is 3.7 m/s2. (a) What length of pendulum has a period...

The free-fall acceleration on Mars is 3.7 m/s2. (a) What length of pendulum has a period of 1.6 s on Earth? cm (b) What length of pendulum would have a 1.6-s period on Mars? cm An object is suspended from a spring with force constant 10 N/m. (c) Find the mass suspended from this spring that would result in a period of 1.6 s on Earth. kg (d) Find the mass suspended from this spring that would result in a...

The free-fall acceleration on Mars is 3.7 m/s2. (a) What length pendulum has a period of...

The free-fall acceleration on Mars is 3.7 m/s2. (a) What length pendulum has a period of 1.2-s on Earth? cm (b) What length pendulum would have a 1.2-s period on Mars? cm An object is suspended from a spring with force constant 10 N/m. (c) Find the mass suspended from this spring that would result in a 1.2 s period on Earth. kg (d) Find the mass suspended from this spring that would result in a 1.2 s period on...

The free-fall acceleration on Mars is 3.7 m/s2. (a) What length of pendulum has a period...

The free-fall acceleration on Mars is 3.7 m/s2. (a) What length of pendulum has a period of 1.8 s on Earth? ____________________ cm (b) What length of pendulum would have a 1.8-s period on Mars? _____________________ cm An object is suspended from a spring with force constant 10 N/m. (c) Find the mass suspended from this spring that would result in a period of 1.8 s on Earth. __________________ kg (d) Find the mass suspended from this spring that would...

1. If a pendulum swings with amplitude less than 15°, which of the following does the...

1. If a pendulum swings with amplitude less than 15°, which of the following does the period depend strongly on? a) The mass of the bob. b) The length of the pendulum arm. c) The amplitude. d) None of the above. 2. Approximately how much does the period at 30° amplitude differ from the period at 5° amplitude? a) It varies by over 30%. b) It varies by less than 0.1%. c) We don’t have enough information to answer this...

1. You determine the period of the pendulum motion. Keeping the length of the string constant,...

1. You determine the period of the pendulum motion. Keeping the length of the string constant, you replace the object with one that has bigger mass. Will the period be affected? a. No, the period will remain the same because it depends only on the length of the string. b. Yes, the period will increase because heavier objects have greater inertia or have greater resistance to changes in their state of motion. c. Yes, the period will decrease because the...

1.3 You have a pendulum of mass m and length l. You pull it back so...

1.3 You have a pendulum of mass m and length l. You pull it back so the string makes a 10◦ angle with the vertical. What is the torque on the pendulum immediately after you release it? What is it when the pendulum is hanging straight down? Drawing a force diagram may be helpful. 1.4 Samwell and Sydney are trying to loosen a bolt on their car. Samwell can exert a maximum force of 52 Newtons, and has a wrench...

Astronomy: 1. Determine the position in the oscillation where an object in simple harmonic motion: a....

Astronomy: 1. Determine the position in the oscillation where an object in simple harmonic motion: a. has the greatest speed. b. has the greatest acceleration. c. experiences the greatest restoring force. d. experiences zero restoring force. 2. Describe simple harmonic motion, including its cause and appearance. 3. Describe how the change in a. amplitude (angle), b. length, and c. mass affect the period of the pendulum.\ 4. Do measurements including uncertainty fall within the accepted value? Which method is more...