A simple pendulum consists of a ball connected to one end of a thin brass wire....

A simple pendulum consists of a ball connected to one end of a thin brass wire....

A simple pendulum consists of a ball connected to one end of a thin brass wire. The period of the pendulum is 1.22 s. The temperature rises by 136 C°, and the length of the wire increases. Determine the change in the period of the heated pendulum.

A simple pendulum consists of a ball connected to one end of a thin brass wire....

A simple pendulum consists of a ball connected to one end of a thin brass wire. The period of the pendulum is 1.17 s. The temperature rises by 140 C°, and the length of the wire increases. Determine the change in the period of the heated pendulum.

A simple pendulum consists of a ball connected to one end of a thin brass wire....

A simple pendulum consists of a ball connected to one end of a thin brass wire. The period of the pendulum is 3.07 s. The temperature rises by 142 C°, and the length of the wire increases. Determine the change in the period of the heated pendulum.

A grandfather clock has a pendulum that consists of a thin brass disk of radius 21...

A grandfather clock has a pendulum that consists of a thin brass disk of radius 21 cm and mass 1 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...

A grandfather clock has a pendulum that consists of a thin brass disk of radius 25...

A grandfather clock has a pendulum that consists of a thin brass disk of radius 25 cm and mass 1.9 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...

A pendulum consists of a brass rod with a brass cylinder attached to the end (parallel...

A pendulum consists of a brass rod with a brass cylinder attached to the end (parallel to the rod). The diameter of the bar is 1 cm and its length is 90 cm; The diameter of the cylinder is 6 cm and its length is 20 cm. What is the period of this pendulum?

A simple pendulum uses a steel wire as the “string.” The length of this wire is...

A simple pendulum uses a steel wire as the “string.” The length of this wire is 4.68 m at room temperature. If the temperature of the pendulum increases by 23oC, what is the change in the period of the pendulum? Hint: Consider the thermal expansion of the wire The change in length = original length * alpha * change in temperature. alpha for steel = 12*10^-6 K^-1 where K is the units for Kelvins. You'll want to convert from Celsius...

A simple pendulum consists of a ball of mass m suspended from the ceiling using a...

A simple pendulum consists of a ball of mass m suspended from the ceiling using a string of length L. The ball is displaced from its equilibrium position by a small angle θ and released. Which one of the following statements concerning this situation is correct? (a) If the mass were increased, the period of the pendulum would increase. (b) The frequency of the pendulum does not depend on the acceleration due to gravity. (c) If the length of the...

A pendulum clock uses a rock fastened to a very thin steel wire. This clock is...

A pendulum clock uses a rock fastened to a very thin steel wire. This clock is designed so that one "tick" of the clock (one complete period of the pendulum) is equal to precisely 14.6 s. The clock is then heated by 11.2°C. Will it now run "fast" or "slow"? Find the new value of the period of the clock. Assume the thermal expansion coefficients of the rock are both zero.

The pendulum of a clock consists of a mass of 0.20 kg hanging from a thin...

The pendulum of a clock consists of a mass of 0.20 kg hanging from a thin rod. The amplitude of the pendulum swing is 3.0 cm. The clock is driven by a weight of mass 4.5 kg that falls a distance of 0.95 m over a period of 8 days. Assuming the pendulum to be a simple pendulum of length 0.75 m, show that the Q-value of the clock is approximately 70. (Assume g = 9.81 m s−2.)