In a Simple Harmonic Motion experiment: (Lab) Describe how the experimental period of the system will...

1a) Describe in detail the three conditions needed for a system to have simple harmonic motion....

1a) Describe in detail the three conditions needed for a system to have simple harmonic motion. for simple harmonic motion to occur how must the restoring force vary with the position of the oscillating body? 1b) How do you determine the angular frequency w, the linear frequency f and the period T based on the system's differential equation of motion?

Simple Harmonic Motion: Mass on Spring (Explanation of lab.) [ The intentions of this lab were...

Simple Harmonic Motion: Mass on Spring (Explanation of lab.) [ The intentions of this lab were to further our understanding of spring mass motion by creating a harmonic motion system to find values for spring force and oscillation periods. By the end of the experiment, our group was able to experimentally determine how the measure of spring constant, k, in a harmonic motion system depends upon oscillation periods and ??y. We began our finding of k by running the experiment...

Let’s think back to the lab for simple harmonic motion. Consider the setup for the simple...

Let’s think back to the lab for simple harmonic motion. Consider the setup for the simple pendulum. The length of the pendulum is 0.60 m and the bob has inertia 0.50 kg (assume mass of the string is negligible, and small angular displacements). You conduct two experiments (A and B) to investigate the physics of simple harmonic motion. For experiment A, you pull the pendulum 5 ◦ , or π 36 radians. In experiment B, the angular displacement is 10◦...

A student is studying the simple harmonic motion of a spring. She conducts an experiment where...

A student is studying the simple harmonic motion of a spring. She conducts an experiment where she measures the amplitude and period of an undamped system to be 26 ± 2 mm and 0.40 ± 0.020 seconds, respectively. Using the equation for displacement as a function of time y(t) = Acos(ωt), what is the uncertainty of her displacement calculation in mm for t = 0.050 ± 0.0010 seconds?

A student is studying simple harmonic motion of a spring. She conducts an experiment where she...

A student is studying simple harmonic motion of a spring. She conducts an experiment where she measures the amplitude and period of an undamped system to be 24 ± 2 mm and 0.40 ± 0.020 seconds, respectively. Using the equation for displacement as a function of time y(t) = Acos(ωt), what is the uncertainty of her displacement calculation in mm for t = 0.050 ± 0.0010 seconds?

A particle undergoes simple harmonic motion with an amplitude of 0.29 m. During one period, how...

A particle undergoes simple harmonic motion with an amplitude of 0.29 m. During one period, how far does the particle travel?

Confirm that the expression for the period of the simple harmonic motion of an object of...

Confirm that the expression for the period of the simple harmonic motion of an object of mass m attached to a spring of force constant k is dimensionally correct.

A student is studying simple harmonic motion of a spring. She conducts an experiment where she...

A student is studying simple harmonic motion of a spring. She conducts an experiment where she measures the amplitude and period of an undamped system to be 21 ± 1 mm and 0.40 ± 0.020 seconds, respectively. Using the equation for displacement as a function of time y(t) = Acos(ωt), what is the uncertainty of her displacement calculation in mm for t = 0.050 ± 0.0010 seconds? Round your answer to 2 decimal places for entry into eCampus. Do not...

What motion inside the mechanical clock represents simple harmonic motion? Can you describe this in a...

What motion inside the mechanical clock represents simple harmonic motion? Can you describe this in a little more detail?

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...