A simple pendulum is released at 8 degrees from vertical position. When it reaches the bottom...

a simple pendulum, 3 m in length, is released with a push when the support string...

a simple pendulum, 3 m in length, is released with a push when the support string is at an angle of 30 degrees force vertical. If the initial speed of the suspended mass is 1.2 m/s when at the release point, what is its speed at the swing. A parachutist of mass 50kg jumps out of an airplane at a hight of 1000m. The parachute deploys, and he hits the ground with a velocity of 5m/s. Find the average resistance...

A.) A simple pendulum is suspended from the ceiling by means of a string of length...

A.) A simple pendulum is suspended from the ceiling by means of a string of length 2.10 m. Assume that there is no friction or air resistance. Suppose you were to release the pendulum from rest, starting from an angle of 44.3 degrees with respect to the vertical, as shown. What will be the speed of the pendulum at the instant it swings through its lowest point (that is, when it s momentarily hanging vertically)? B.) OK, once again we...

1. A pendulum of length 52 cm is pulled in an arc. The position at the...

1. A pendulum of length 52 cm is pulled in an arc. The position at the top of the arc will measure 30cm from the vertical axis, when measured perpendicularly. The pendulum is released from rest. What will be its speed at the bottom of its swing? (draw a picture). Answer to 2 decimals. 2. A 250 gram mass is pressed up against a horizontal, open coil spring, on a smooth surface. The mass compresses the spring 38 cm and...

A simple pendulum is constructed from a string of negligible mass. A mass (bob) 0.91kg that...

A simple pendulum is constructed from a string of negligible mass. A mass (bob) 0.91kg that is essentially a point mass. The string length is 0.65m. The pendulum is started by being released from rest with an angle (respect to the vertical) of 5.87 degrees. Use g=9.81 m/s^2. a) the maximum amplitude (in degrees) of this motion b)Angular frequency (in rad/s) of this motion c) Period (in s) of this motion.

A pendulum is made by tying a 0.50 kg ball to a 0.75 m long string....

A pendulum is made by tying a 0.50 kg ball to a 0.75 m long string. It is pulled back to an angle of 35 degrees from the vertical, and then released from rest. (a) determine the change in the gravitational potential energy between the moment it is released and the moment it reaches the bottom of its swing. (The anwser is -0.665J) (b) Determine the speed when it is at the bottom of the swing. (the answer is 1.63...

The length of a simple pendulum is 0.68 m , the pendulum bob has a mass...

The length of a simple pendulum is 0.68 m , the pendulum bob has a mass of 295 g , and it is released at an angle of 11 ? to the vertical. Assume SHM. Part A With what frequency does it oscillate? Part B What is the pendulum bob's speed when it passes through the lowest point of the swing? Part C What is the total energy stored in this oscillation assuming no losses?

Differential Equations A 12-cm pendulum is released from rest at an angle 20/pi from the vertical....

Differential Equations A 12-cm pendulum is released from rest at an angle 20/pi from the vertical. Assuming that g = 10m/s^2 find the maximum angular velocity from the vertical and the time when this maximum velocity occurs first for the pendulum.(solve using Differential Equations)

A simple pendulum is constructed from a string of neligible mass that does not strech and...

A simple pendulum is constructed from a string of neligible mass that does not strech and a bob of mass 0.91kg that is essentially a point mass. The length of the string is 2.39m. The pendulum is started by being released from rest with an angle ( with redpext to the vertical) of 3.48degrees. Don't forget to convert degrees to radians. Use g=9.81m/s^2. What is the maximum speed (in m/s) of this motion? Response format x.xx. The answer is 0.12...

The length of a simple pendulum is 0.85 m and the mass of the particle (the...

The length of a simple pendulum is 0.85 m and the mass of the particle (the "bob") at the end of the cable is 0.26 kg. The pendulum is pulled away from its equilibrium position by an angle of 7.75° and released from rest. Assume that friction can be neglected and that the resulting oscillatory motion is simple harmonic motion. (a) What is the angular frequency of the motion? rad/s (b) Using the position of the bob at its lowest...

A pendulum, with 1 kg mass attached with string of length 1 m is raised to...

A pendulum, with 1 kg mass attached with string of length 1 m is raised to an angle of 30 degrees below the horizontal and then released. Neglect frictional forces. 1. What is the height, h, initially of the pendulum bob? 2. What is the Potential Energy initially? What is the total Energy of the system? 3. What is the velocity of the pendulum when it reaches the bottom of its swing (i.e at 90° from horizontal as also shown...