Two different simple harmonic oscillators have the same natural frequency (f=1.70 Hz) when they are on...
Two different simple harmonic oscillators have the same natural
frequency (f=1.70 Hz) when they are on the surface of the Earth.
The first oscillator is a vertical spring and mass, the second is a
pendulum. If both systems are moved to the surface of the moon
(g=1.67 m/s2), what is the new frequency of the vertical
spring and mass?
| Tries 0/20 |
Calculate the new frequency of the pendulum.
Homework Answers
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Two different simple harmonic oscillators have the same natural
frequency (f=1.70 Hz) when they are on...
Exercise 11: Simple Harmonic Motion 1. A spring-mass system oscillates with a frequency of 10 Hz...
Exercise 11: Simple Harmonic Motion 1. A spring-mass system oscillates with a frequency of 10 Hz when the mass is equal to 0.50 kg. What is the stiffness of the spring? With the same spring, what would the mass need to be to double the frequency? 2. A pendulum swings with a period of 1.50 seconds when the acceleration due to gravity is equal to 9.80 m/s? What is the length of the pendulum? How would this period change if...
1. Imagine you have two simple harmonic oscillators. Oscillator 1 is characterized by k1 10 kg...
1. Imagine you have two simple harmonic oscillators. Oscillator 1 is characterized by k1 10 kg s-2 and oscillator 2 by k25 kg s-2. The oscillators are displaced by the (a) If they each oscillate with a 1 kg mass, what is the period for the oscillators to (b) For some initial displacement d, where do the oscillators first come back into same amount in the same direction and are released together (in phase). come back into phase? phase?
1. SIMPLE HARMONIC OSCILLATOR PROBLENM We can describe rotational oscillators in a manner that is very...
1. SIMPLE HARMONIC OSCILLATOR PROBLENM We can describe rotational oscillators in a manner that is very similar to translational ones. Consider a solid disk of mass M and radius R that sits on a flat, level surface. A spring (spring constant, k) is attached to the center of the disk, and to a fixed wall. The spring is horizontal. There is sufficient friction to prevent the disk from sliding at the contact point with the surface, so if the spring...
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7. [lpt] In a simple approximation, a diatomic molecule (e.g., H2) can be represented by two...
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please answer all prelab questions, 1-4. This is the prelab manual, just in case you need...
please answer all prelab questions, 1-4.
This is the prelab manual, just in case you need background
information to answer the questions. The prelab questions are in
the 3rd photo.
this where we put in the answers, just to give you an
idea.
Lab Manual Lab 9: Simple Harmonic Oscillation Before the lab, read the theory in Sections 1-3 and answer questions on Pre-lab Submit your Pre-lab at the beginning of the lab. During the lab, read Section 4 and...
mass vibrates on an ideal spring as illustrated below. The total energy of the spring is...
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A mass vibrates on an ideal spring as illustrated below. The total energy of the spring...
A mass vibrates on an ideal spring as illustrated below. The total energy of the spring is 100 J. What is the kinetic energy of the mass at point P, halfway between the equilibrium point and the amplitude? P Equilibrium A. 50 J B. 200 J C. 75 J D. 100 J E. 25 J When a weight Wis hanging from a light vertical string, the speed of pulses on the string is v. If a second weight Wis added...
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1. Imagine you have two simple harmonic oscillators. Oscillator 1 is characterized by k1 10 kg s-2 and oscillator 2 by k25 kg s-2. The oscillators are displaced by the (a) If they each oscillate with a 1 kg mass, what is the period for the oscillators to (b) For some initial displacement d, where do the oscillators first come back into same amount in the same direction and are released together (in phase). come back into phase? phase?
1. SIMPLE HARMONIC OSCILLATOR PROBLENM We can describe rotational oscillators in a manner that is very similar to translational ones. Consider a solid disk of mass M and radius R that sits on a flat, level surface. A spring (spring constant, k) is attached to the center of the disk, and to a fixed wall. The spring is horizontal. There is sufficient friction to prevent the disk from sliding at the contact point with the surface, so if the spring...
Q 7 You set up two oscillating systems, the first is a block hanging off the bottom of a spring and the second is a pendulum. You adjust the length of the pendulum string so that both systems have the same period here on Earth. Without changing anything about these systems would they have the same period if you took them to the surface of the moon? Explain your answer. Q 8 The acceleration due to gravity at the equator...
7. [lpt] In a simple approximation, a diatomic molecule (e.g., H2) can be represented by two equal masses, m, on a frictionless surface, connected by a spring of constant k. Consider the oscillations of the masses and the connecting spring. Select true or false for each of the statements; e.g., if the first statement is true and the second false, enter TF You only have 1 try! i. During the oscillation of this mass-spring system, its centre of mass will...
please answer all prelab questions, 1-4.
This is the prelab manual, just in case you need background
information to answer the questions. The prelab questions are in
the 3rd photo.
this where we put in the answers, just to give you an
idea.
Lab Manual Lab 9: Simple Harmonic Oscillation Before the lab, read the theory in Sections 1-3 and answer questions on Pre-lab Submit your Pre-lab at the beginning of the lab. During the lab, read Section 4 and...
A mass vibrates on an ideal spring as illustrated below. The total energy of the spring is 100 J. What is the kinetic energy of the mass at point P, halfway between the equilibrium point and the amplitude? P Equilibrium A. 50 J B. 200 J C. 75 J D. 100 J E. 25 J When a weight Wis hanging from a light vertical string, the speed of pulses on the string is v. If a second weight Wis added...
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