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

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

A simple pendulum is released at 8 degrees from vertical position. When it reaches the bottom of the swing, the velocity is .4 m/s. Use this information to calculate the length of the pendulum.

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 person is to be released from rest on a swing pulled away from the vertical...

A person is to be released from rest on a swing pulled away from the vertical by an angle of 20.0 ∘ . The two frayed ropes of the swing are 2.75 m long, and will break if the tension in either of them exceeds 345 N. What is the maximum weight the person can have and not break the ropes? If the person is released at an angle greater than 20 degrees does the max weight increase, decrease, or...

A mass weighing 20 pounds stretches a spring 6 inches. The mass is initially released from...

A mass weighing 20 pounds stretches a spring 6 inches. The mass is initially released from rest from a point 4 inches below the equilibrium position. (a) Find the position x of the mass at the times t = pi/12, pi/8, pi/6, pi/4, and 9pi/32 s. Use g = 32 ft/s^2 for the acceleration due to gravity. (b) what is the velocity of the mass when t = 3pi/16 s?

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...

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...

Consider a simple pendulum with a bob of mass 4.0 kg and a string of length...

Consider a simple pendulum with a bob of mass 4.0 kg and a string of length 45 cm. Part A: Which of the following is true for small angular displacement? a. The net torque is proportional to the negative of the angle displaced from the equilibrium b. The period is inversely proportional to the amplitude c. The kinetic energy is always equal to the potential energy d. The minimum velocity is achieved when the bob is at equilibrium Part B:...

An 6.90-cm-diameter, 360 g solid sphere is released from rest at the top of a 1.80-m-long,...

An 6.90-cm-diameter, 360 g solid sphere is released from rest at the top of a 1.80-m-long, 20.0 ∘ incline. It rolls, without slipping, to the bottom. What is the sphere's angular velocity at the bottom of the incline? What fraction of its kinetic energy is rotational?

A mass of 500 g is placed on a vertical spring and the spring stretches by...

A mass of 500 g is placed on a vertical spring and the spring stretches by         18.0 cm. It is then pulled down an additional 10.0 cm and released. Find the:          spring constant. periodic time                                                                          frequency.                                                                                            maximum velocity of the mass.                                                        maximum restoring force.                                                              speed when the displacement is 10 cm from equilibrium.          equation of the displacement and acceleration as a function of time.    velocity after 2.0 s.   Acceleration after 3.0 s.                                                                           

A 469 g block is released from rest at height h0 above a vertical spring with...

A 469 g block is released from rest at height h0 above a vertical spring with spring constant k = 410 N/m and negligible mass. The block sticks to the spring and momentarily stops after compressing the spring 18.3 cm. How much work is done (a) by the block on the spring and (b) by the spring on the block? (c) What is the value of h0? (d) If the block were released from height 4h0 above the spring, what...