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Problem 1 The length of a simple pendulum is 0.68 m and has an angular amplitude...
9. 25 pts] A pendulum of mass m suspended from a string of length L has...
9. 25 pts] A pendulum of mass m suspended from a string of length L has initial displacement and is released from rest. A. Write an equation for the pendulum's angular displacement as a function of time in terms of known variables. Describe how you arrived at your answer B. Sketch a qualitatively accurate graph of the pendulum's translational velocity vs time Label your scale in terms of the given quantities, and label your axes C. You make a second...
1. Consider a physical pendulum with length 0.68 m and mass 0.200 kg. If the pendulum...
1. Consider a physical pendulum with length 0.68 m and mass 0.200 kg. If the pendulum was released form an angle of 10*, then calculate the angular speed of the pendulum. (gravity= 9.8 m/s^2). [I tried using the formula: 2pi/L to get 2pi/0.68 = 9.24 but this is NOT correct.] 2. Suppose that you are on an unknown planet in a distant galaxy. Let the length of a physical pendulum be 0.53 m. In the physical pendulum experiment, the period...
Part 1: (Theory) Simple Pendulum 1. Consider a mass m hanging from a string of length...
Part 1: (Theory) Simple Pendulum 1. Consider a mass m hanging from a string of length L that makes an angle with the vertical (shown below). Assume the string is massless and that the hanging object is a point mass. Use Newton's Second Law directly to show that the equation of motion for this simple pendulum can be written: (LO) = -mgsin(o), (1) dia where is the angular displacement of the pendulum from its vertical equilibrium position (and is a...
The velocity of the bob of a simple pendulum of length 0.25 m at its lowest...
The velocity of the bob of a simple pendulum of length 0.25 m at its lowest position is 0.2 m/s. What is the angular amplitude of the oscillation? This problem can be solved by using either (1) energy conservation or (2) the equations of SHM. Solve it both ways and compare the answers. Explain the difference if any.
When a certain simple pendulum is set swinging, its angular displacement theta as a function of...
When a certain simple pendulum is set swinging, its angular displacement theta as a function of time t obeys the equation theta= 8.5° cos(2.4 t). How long is the pendulum?
The length of a simple pendulum undergoing SHM is 2.0 m. If the amplitude is 15...
The length of a simple pendulum undergoing SHM is 2.0 m. If the amplitude is 15 degrees, what is the gravitational potential energy of the pendulum's bob if it has a mass of 0.100 kg? How fast does the pendulum's bob pass through the equilibrium position?
Simple Pendulum 1) Illustrate the dependence of Period on Mass, Length of Pendulum, and Amplitude by...
Simple Pendulum
1) Illustrate the dependence of Period on Mass, Length of
Pendulum, and Amplitude by showing 2 trials for each.
2) Compute the % Error between the measured period and the
theoretical period for all situations for comparison purposes.
Please need it ASAP
Trials Situations Full length Half the length Half length and different Amplitude Half length and double mass Half length, double mass, and different amplitude Full Length and 200g Period (s) 2.936 2.109 2.078 2.138 2.134 2.931
A compound pendulum is made up of a rod of length L, with mass M and...
A compound pendulum is made up of a rod of length L, with mass M and a solid sphere of radius r, with mass m (see figure below). The pendulum is pivoted about one end and released from rest from and angle of 0, (angle with the vertical). (a) Find the distance, dom, of center of mass of this pendulum from its pivot. (b) Draw a free body diagram and write down Newton's 2nd Law (for rotation) for the pendulum...
The angular frequency ω of a simple pendulum with mass m and center-of-mass length L is...
The angular frequency ω of a simple pendulum with mass m and center-of-mass length L is calculated as what?
A simple pendulum with mass m = 2.1 kg and length L = 2.3 m hangs...
A simple pendulum with mass m = 2.1 kg and length L = 2.3 m hangs from the ceiling. It is pulled back to an small angle of θ = 11.9° from the vertical and released at t = 0. 4)What is the angular displacement at t = 3.56 s? (give the answer as a negative angle if the angle is to the left of the vertical) 6)What is the magnitude of the radial acceleration as the pendulum passes through...
9. 25 pts] A pendulum of mass m suspended from a string of length L has initial displacement and is released from rest. A. Write an equation for the pendulum's angular displacement as a function of time in terms of known variables. Describe how you arrived at your answer B. Sketch a qualitatively accurate graph of the pendulum's translational velocity vs time Label your scale in terms of the given quantities, and label your axes C. You make a second...
Part 1: (Theory) Simple Pendulum 1. Consider a mass m hanging from a string of length L that makes an angle with the vertical (shown below). Assume the string is massless and that the hanging object is a point mass. Use Newton's Second Law directly to show that the equation of motion for this simple pendulum can be written: (LO) = -mgsin(o), (1) dia where is the angular displacement of the pendulum from its vertical equilibrium position (and is a...
Simple Pendulum
1) Illustrate the dependence of Period on Mass, Length of
Pendulum, and Amplitude by showing 2 trials for each.
2) Compute the % Error between the measured period and the
theoretical period for all situations for comparison purposes.
Please need it ASAP
Trials Situations Full length Half the length Half length and different Amplitude Half length and double mass Half length, double mass, and different amplitude Full Length and 200g Period (s) 2.936 2.109 2.078 2.138 2.134 2.931
A compound pendulum is made up of a rod of length L, with mass M and a solid sphere of radius r, with mass m (see figure below). The pendulum is pivoted about one end and released from rest from and angle of 0, (angle with the vertical). (a) Find the distance, dom, of center of mass of this pendulum from its pivot. (b) Draw a free body diagram and write down Newton's 2nd Law (for rotation) for the pendulum...
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