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Part 1: Pendulum on allen planet You are on a mysterious planet and notice that a...
You are on a mysterious planet and notice that a 2.1 m long simple pendulum has...
You are on a mysterious planet and notice that a 2.1 m long simple pendulum has a period of 6.5 s when its angular amplitude is 6° or less. A.) Determine the value for g (the free fall acceleration) on the surface of this planet. B.) If you HALVED the length of the pendulum, what would its period be? Part B; You are on Earth and notice that the pendulum in grandfather clock is 0.24 m long. Determine the following...
please help me answers all part of question 11 correctly. 11. 1.25/10 points Previous Answers SHM:...
please help me answers all part of question 11
correctly.
11. 1.25/10 points Previous Answers SHM: Pendulum 1/6 Submissions Used e Content My Notes A Part 1: Pendulum on allen planet You are on a mysterious planet and notice that a 2.7 m long simple pendulum has a period of 3s when its angular amplitude is for less A) Determine the value for 3.7974 m/s the free full acceleration on the surface of this planet .) If you DOUBLED the...
You are on Earth and notice that the pendulum in grandfather clock is 1.27 m long....
You are on Earth and notice that the pendulum in
grandfather clock is 1.27 m long. Determine the following if its
angular amplitude is 3.7°.
Part 2: Pendulum on Earth You are on Earth and notice that the pendulum in grandfather clock is 1.27 m long. Determine the following if its angular amplitude is 3.7° W = 2.77 rad/s f 4411 Hz T 2.267 s A .0052 m X = .0144 m/s X Vmax amax .0398 m/s^2 X Submit Answer
You are on Earth and notice that the pendulum in grandfather clock is 0.89 m long....
You are on Earth and notice that the pendulum in grandfather clock is 0.89 m long. Determine the following if its angular amplitude is 4.6° W = 3.32 rad/s f 0.528 hz T 1.893 sec A = 0.0715 m = 0.237 m/s Vmax 0.788 m/s^2 amax =
The period of a simple pendulum in a grandfather clock on another planet is 1.80 s....
The period of a simple pendulum in a grandfather clock on another planet is 1.80 s. What is the acceleration due to gravity on this planet if the length of the pendulum is 1.00 m.
ans: 12.8 m/s^2 You crash land your spaceship on a mysterious planet. You want to figure out g, the acceleratio...
ans: 12.8 m/s^2
You crash land your spaceship on a mysterious planet. You want to figure out g, the acceleration due to gravity, on the surface of the planet. Fortunately, you brought a stopwatch and simple pendulum: a 75.0 centimeter long string tied to a 1.50 kg mass. You measure the period of the pendulum to be 1.52 seconds. What is the value of g, in units of m/s2? Assume there is no air resistance as the pendulum swings.
1. How much is the period of 1=1.00 m long pendulum on the Moon (g =...
1. How much is the period of 1=1.00 m long pendulum on the Moon (g = 1.600 m/s2) 4.97 sec. 2. On a planet X pendulum of the length 0.500 m makes 50.0 oscillations in 1.00 min. Find the acceleration of gravity on the planet X. g = 13.7 m/s2. 3. Find the period of small oscillations of a meter stick suspended by its end near Earth surface (assume g=9.800 m/s2). Notice that this is not a simple pendulum but...
A simple pendulum on the surface of the Earth has period T. On a different planet,...
A simple pendulum on the surface of the Earth has period T. On a different planet, the same pendulum has period 27. The free-fall acceleration on this planet is 04g O g/4 O2g O g/2
A grandfather clock has a pendulum that consists of a thin brass disk of radius 37...
A grandfather clock has a pendulum that consists of a thin brass
disk of radius 37 cm and mass 1.6 kg that is attached to a long,
thin rod of negligible mass. The pendulum swings freely about an
axis perpendicular to the rod and through the end of the rod
opposite the disk. The pendulum should be designed so that its
period is 2 s for small oscillations when the gravitational
acceleration is 9.8 m/s2.
(a) What should the length...
Consider a simple pendulum: a bob on the end of a string. The length of the...
Consider a simple pendulum: a bob on the end of a string. The length of the string (assumed massless) is 85 ?? and has a period of 1.62 ?. Assuming this pendulum is on another planet rather than Earth (and the angles are small), determine, a. The gravitational acceleration, near the surface of the planet. b. The angular frequency.
please help me answers all part of question 11
correctly.
11. 1.25/10 points Previous Answers SHM: Pendulum 1/6 Submissions Used e Content My Notes A Part 1: Pendulum on allen planet You are on a mysterious planet and notice that a 2.7 m long simple pendulum has a period of 3s when its angular amplitude is for less A) Determine the value for 3.7974 m/s the free full acceleration on the surface of this planet .) If you DOUBLED the...
You are on Earth and notice that the pendulum in
grandfather clock is 1.27 m long. Determine the following if its
angular amplitude is 3.7°.
Part 2: Pendulum on Earth You are on Earth and notice that the pendulum in grandfather clock is 1.27 m long. Determine the following if its angular amplitude is 3.7° W = 2.77 rad/s f 4411 Hz T 2.267 s A .0052 m X = .0144 m/s X Vmax amax .0398 m/s^2 X Submit Answer
You are on Earth and notice that the pendulum in grandfather clock is 0.89 m long. Determine the following if its angular amplitude is 4.6° W = 3.32 rad/s f 0.528 hz T 1.893 sec A = 0.0715 m = 0.237 m/s Vmax 0.788 m/s^2 amax =
ans: 12.8 m/s^2
You crash land your spaceship on a mysterious planet. You want to figure out g, the acceleration due to gravity, on the surface of the planet. Fortunately, you brought a stopwatch and simple pendulum: a 75.0 centimeter long string tied to a 1.50 kg mass. You measure the period of the pendulum to be 1.52 seconds. What is the value of g, in units of m/s2? Assume there is no air resistance as the pendulum swings.
1. How much is the period of 1=1.00 m long pendulum on the Moon (g = 1.600 m/s2) 4.97 sec. 2. On a planet X pendulum of the length 0.500 m makes 50.0 oscillations in 1.00 min. Find the acceleration of gravity on the planet X. g = 13.7 m/s2. 3. Find the period of small oscillations of a meter stick suspended by its end near Earth surface (assume g=9.800 m/s2). Notice that this is not a simple pendulum but...
A simple pendulum on the surface of the Earth has period T. On a different planet, the same pendulum has period 27. The free-fall acceleration on this planet is 04g O g/4 O2g O g/2
A grandfather clock has a pendulum that consists of a thin brass
disk of radius 37 cm and mass 1.6 kg that is attached to a long,
thin rod of negligible mass. The pendulum swings freely about an
axis perpendicular to the rod and through the end of the rod
opposite the disk. The pendulum should be designed so that its
period is 2 s for small oscillations when the gravitational
acceleration is 9.8 m/s2.
(a) What should the length...
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