What will be the length of seconds pendulum at a point where g = 980cm/s²?
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A: WE KNOW THAT
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Q: At what angle does the tension in the 0.6 m long pendulum cord become zero if the 1.0 kg pendulum…
A: Length of string(l)= 0.6 m Speed at lowest point(v) = 5 m/s2 Mass(m) = 1 kg
Q: A simple pendulum consists of a weight with mass 5.5 kg suspended from a 0.4 m long wire. The weight…
A: Given: A simple pendulum consists of a weight with mass 5.5 kg . m = 5.5 kg l = 0.4 m theta = 50…
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Q: A PENDULUM has a length of 100 cm with a 100 g bob on Earth. What is its period?
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Q: This time the pendulum is 2.34 m long. Suppose you start with the pendulum hanging vertically, at…
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Q: A simple pendulum consists of a 50 g weight on the end of a string. The angle between the cord and…
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Q: A pendulum of length 14.4 cm swings back and forth at a location on earth where g = 9.7 m/s2. The…
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Q: This time the pendulum is 1.31 m long. Suppose you start with the pendulum hanging vertically, at…
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Q: simple pendulum oscillates with a frequency
A: Given: Frequency with which simple pendulum oscillates is f=4.6 Hz Note: 1 m=100 cm 1 Hz=1 s-1 Find:…
Q: A pendulum's angular position is given by 0 = 0.0300 cos(@t), where 0 is in radians and w = 8.48…
A: Given, angular position of a pendulum, θ= 0.0300 cosωt ω= 8.48 rads
Q: A simple pendulum consists of a 50 g weight on the end of a string. The angle between the cord and…
A: Here, W = 2.2 rad /s The angular frequency W =(g/L)1/2 (2.2)2 = 10/ L L = 10/(2.2)2 L = 2.066 m
Q: This relates the initial speed of the pendulum box to the height that it goes: V =squr 2 g h . The…
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Q: A pendulum bob swings through an arc 40 cm long on its first swing. Each swing thereafter, it swings…
A: For the first swing the distance =40cmthe second swing the distance =0.8×40cmthe third swing the…
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- this is a calculus problem A 27-centimeter pendulum moves according to the equation ? = 0.30 cos(3t), where ? is the angular displacement from the vertical in radians and t is the time in seconds. Determine the maximum angular displacement ?max and the rate of change of ? when t = 4 seconds. (Round your answers to three decimal places.) Theta Max=______________________ Theta Derivative' (4)=________________________A simple pendulum is made from a 0.666-m-long string and a small ball attached to its free end. After the ball is released pulled to one side through a small angle and then released from rest. After the ball is released, how much time elapses before it attains its greatest speed?The figure blow shows the kinetic energy of a simple pendulum versus its angle θ from the vertical. Note the energy units are in milli-joules. The vertical axis is set by Ks=4mJ and the mass of the pendulum bob is 0.200 kg. Determine the length of the pendulum in meters. Use g = 9.8 N/kg.
- This time the pendulum is 2.42 m long. Suppose you start with the pendulum hanging vertically, at rest. You then give it a push so that it starts swinging with a speed of 2.68 m/s. What maximum angle (in degrees) will it reach, with respect to the vertical, before falling back down? 41.5 degrees 36.7 degrees 31.9 degrees 16.0 degreesA clock has a pendulum that performs one full swing every 1.14 s (back and forth). The object at the end of the pendulum weighs 10.0 N. What is the length of the pendulum?A simple pendulum has a length of 1.3 meters. What is its period of oscillation? Use g = 9.8 m/s/s Give your answer in seconds to 1 decimal place.
- The figure blow shows the kinetic energy of a simple pendulum versus its angle θ from the vertical. Note the energy units are in milli-joules. The vertical axis is set by Ks=4mJ and the mass of the pendulum bob is 0.200 kg. Determine the length of the pendulum in meters. Use g = 9.8 N/kg.A 3 kg block attached to a spring with a spring constant of 9 N/m oscillates horizontally on a frictionless table. Its velocity is 7 m/s when x0 = 0.39 m. What is the block's maximum acceleration (in m/s^2)?This time the pendulum is 2.37 m long. Suppose you start with the pendulum hanging vertically, at rest. You then give it a push so that it starts swinging with a speed of 2.64 m/s. What maximum angle (in degrees) will it reach, with respect to the vertical, before falling back down? 31.8 degrees 19.1 degrees 50.9 degrees 41.4 degrees
- Problem 9: An ideal pendulum of length L=1.1 m supports a mass of m =0.5 kg. Initially the pendulum is lifted such that it makes an angle of 0 = 26 degrees with respect to the vertical. m 10This time the pendulum is 1.37 m long. Suppose you start with the pendulum hanging vertically, at rest. You then give it a push so that it starts swinging with a speed of 1.12 m/s. What maximum angle (in degrees) will it reach, with respect to the vertical, before falling back down? 7.0 degrees 29.9 degrees 23.8 degrees 17.6 degreesA vertical spring 0.100 meter long is stretched to a length of 1.25 meters when a 2 kilogram mass is attached to the bottom. What is the correct value for the spring constant of this spring?