Mathematically determine how the period of a pendulum swing depends on the amplitude.

explain how friction affects the period and amplitude in a pendulum experiment?

explain how friction affects the period and amplitude in a pendulum experiment?

A clock, with a simple pendulum timer that is supposed to swing with a period of...

A clock, with a simple pendulum timer that is supposed to swing with a period of 2.0 seconds, loses 1 minute every day. Should the pendulum be shortened or lengthened, and by how much should it be shortened or lengthened to keep the correct time?

Suppose that there is a simulation that shows the period and amplitude change of a pendulum...

Suppose that there is a simulation that shows the period and amplitude change of a pendulum with air resistance included The amount of "friction can control the resistance". It is anticipated that the period decreases. a) How would you determine if the percent loss of the time period is constant b )Which of the models could be potentially used to develop a Differential Equation for the period change c) What would be the independent variable of the model?

How do I experimentally determine a mathematical relationship between period and amplitude, when using simple harmonic...

How do I experimentally determine a mathematical relationship between period and amplitude, when using simple harmonic motion and a pendulum in a lab setting? We recorded values for amplitude, length of the pendulum and period. An example of the data collected : Amplitude/Period 5 deg / 1.524 sec 10 deg / 1.532 sec 15 deg / 1.538 sec, etc... The period stays roughly the same all the way up to 40 degrees. Is it as simple as graphing these data...

A physics department has a Foucault pendulum, a long-period pendulum suspended from the ceiling. The pendulum...

A physics department has a Foucault pendulum, a long-period pendulum suspended from the ceiling. The pendulum has an electric circuit that keeps it oscillating with a constant amplitude. When the circuit is turned off, the oscillation amplitude decreases by 50% in 31 minutes. What is the pendulum's time constant? How much additional time elapses before the amplitude decreases to 25% of its initial value?

3. The amplitude of oscillation of a mass attached to a spring decreases by 10% with...

3. The amplitude of oscillation of a mass attached to a spring decreases by 10% with each oscillation. By what percent does the energy of the system decrease with each oscillation? Potential Energy of a mass - spring system is; E = ½ kx2 . Here k is the force constant of the spring and x is the displacement. 4. A small child weighing 200N sits on a swing of length 2.2 m. (a) Find the period for small- amplitude...

What does it mean for the pendulum to have a small angle? How far does the...

What does it mean for the pendulum to have a small angle? How far does the period (T) of the pendulum differ from the linear model that we used to describe the pendulum as a function of initial angle? Note that for this one you will need to measure the period of a single swing of the pendulum. How can you / did you do this?

1) We have a simple pendulum that is 0.75 meters long. Determine the period? 2) Determine...

1) We have a simple pendulum that is 0.75 meters long. Determine the period? 2) Determine what is the length of a pendulum of one second 3) We know Moon the gravitational acceleration is one sixth that on Earth. Determine what would be the length of a pendulum that has a period of one second on the surface of our satellite. .

Would the period of a particular pendulum be the same on the moon as on Earth?...

Would the period of a particular pendulum be the same on the moon as on Earth? Explain. 2. What effect does the mass of the ball have on the period of a simple pendulum? What would be the effect of replacing the steel ball with a wooden ball, a lead ball, and a ping pong ball of the same size? 3.Would you conclude that Galileo was correct in his observation that the period of a simple pendulum depends only on...

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.)