Applying conservation of mechanical energy.
Decrease in gravitational potential energy = increase in kinetic energy.

(II) A simple pendulum has a length of 1.2 m mass 0.8 kg. It is released...
A simple pendulum has a rod of length LL with a bob of mass
m=0.100 kg at the end of the rod. The rod is supposed to be very
light and all the mass is imagined to be concentrated in the
bob.
A) What is the tension in the string when the pendulum swings by
an angle θ=5.00∘?
B) What is the magnitude of the restoring force on the bob when
θ=5.00∘?
C) If you drop a perpendicular from the...
The length of a simple
pendulum is 0.66 m, the pendulum bob has a mass of 305 grams, and
it is released at an angle of 11° to the vertical. (a) With what
frequency does it vibrate? Assume SHM. Hz (b) What is the pendulum
bob's speed when it passes through the lowest point of the swing?
m/s (c) What is the total energy stored in this oscillation,
assuming no losses? J
My Notes Ask Your Teacher 8. -13 points...
A simple pendulum with mass m = 2.1 kg and length L = 2.3 m hangs from the ceiling. It is pulled back to an small angle of θ = 11.9° from the vertical and released at t = 0. 1)What is the period of oscillation? 2)What is the magnitude of the force on the pendulum bob perpendicular to the string at t=0? 3)What is the maximum speed of the pendulum? 5)What is the magnitude of the tangential acceleration as...
A simple pendulum with mass m = 2.3 kg and length L = 2.62 m
hangs from the ceiling. It is pulled back to an small angle of θ =
9.2° from the vertical and released at t = 0. 1) What is the period
of oscillation?
2) What is the magnitude of the force on the pendulum bob
perpendicular to the string at t=0?
3) What is the maximum speed of the pendulum?
4) What is the angular displacement...
A simple pendulum with mass m = 2.1 kg and length L = 2.79 m hangs from the ceiling. It is pulled back to a small angle of θ = 11.5° from the vertical and released at t = 0. 1) What is the period of oscillation? 2) What is the magnitude of the force on the pendulum bob perpendicular to the string at t=0? 3) What is the maximum speed of the pendulum? 4) What is the angular displacement...
Please draw and solve: A simple pendulum, 2.0 m in length, is released by a push when the support string is at an angle of 25° from the vertical. If the initial speed of the suspended mass is 1.2 m/s when at the release point, to what maximum angle will it move in the second half of its swing? a. 37° b. 30° c. 27° d. 21°
A simple pendulum comprised of a bob of mass m = 162 g and a lightweight string of length 71.0 cm is released from rest from an initial angle of 24.0° from the vertical. (a) Using the approach of simple harmonic motion, what is the maximum speed of the pendulum bob? m/s (b) Using the approach of simple harmonic motion, what is the maximum angular acceleration of the bob? rad/s2
A simple pendulum has a mass of 0.650 kg and a length of 5.00 m. It is displaced through an angle of 9.0° and then released. Using the analysis model of a particle in simple harmonic motion, calculate the following. (Give your answer to the thousandths place.) (a) What is the maximum speed of the bob? m/s (b) What is the maximum angular acceleration of the bob? ? rad/s2 (c) What is the maximum restoring force of the bob? ?...
A simple pendulum with mass m = 1.8 kg and length L = 2.77 m hangs from the ceiling. It is pulled back to an small angle of θ = 9° from the vertical and released at t = 0. 1) What is the period of oscillation? Answer= 3.34 s 2) What is the magnitude of the force on the pendulum bob perpendicular to the string at t=0? Answer= 2.76 N 3) What is the maximum speed of the pendulum?...
Exercise of conservation theorems:
the sphere of mass m of the simple pendulum of the figure is
released from rest when the string makes an angle β1 with the
vertical; Based on this information:
Determine one expression for velocity and another for tension at
the lowest point ②.
A pendulum of 61.0 m in length and 0.400 kg of mass is released
from rest when the rope is at an angle of 65.0 or vertical. Find
the velocity of the...