![A mass is attached to the end of a spring and set into oscillation on a horizontal frictionless surface by releasing it from a stretched position. The position of the mass at any time is described byx-(6.7 cm) cos [2t/(0.76 s)]. (Where applicable, indicate the direction with the sign of your answer. Assume the mass is initially stretched in the positive direction.) (a) Determine the period T of the motion. (b) Determine the location of the mass at t 3.4 s cm (c) Determine the location of the mass at t = 3.4 s + T cm](http://img.homeworklib.com/questions/6172ec30-73a9-11ea-917a-731186b9d64e.png?x-oss-process=image/resize,w_560)
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Homework Answers
Concept: here we use the concepts of simple harmonic oscillations and use angle inside cos as radian,
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Hi, please answer the
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Hi, please answer the question. I will be more then happy to thumbs up it if...
Hi, please answer the question. I will be more then happy to
thumbs up it if it is correct!
A 0.400 kg mass is attached to a horizontal spring and oscillates such that its position vs. time plot is given below x m) 1.0 0.5 0.0 t(s) -0.5 (a) What is the period of motion? (b) What is the angular frequency? rad/s (c) What is the spring constant of the spring? PN/I (d) What is the fastest speed the mass...
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Hi, please answer the
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Consider a mass oscillating on a horizontal spring on a frictionless surface about the origin. If at t- 0, the mass is moving through the origin in the positive x direction, which of the following could be the v(t) for the mas vim/s m/s) vim/s) t( s) .510 15 2 t(s) t(s) -1 -1 O-2 vim/s vm/s vim/s) t( s) 2.0...
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Hi, please answer the question.
I will be more then happy to thumbs up it if it is correct!
One type of cuckoo clock keeps time by having a mass bouncing on a spring. What spring constant is needed to produce a period of 0.500 s for a 0.0220 kg mass? N/m
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Hi, please answer the
question. I will be more then happy to thumbs up it if it is
correct!
A uniform rod of mass m = 10 kg has length L = 65 cm . Instead of pivoting it at its end, we pivoted it at L/3 from the end as shown in the figure, we now set the rod into small angle oscillations. What is the period of the oscillation given that the moment of inertia about the pivot...
A mass is attached to the end of a spring and set into oscillation on a...
A mass is attached to the end of a spring and set into oscillation on a horizontal frictionless surface by releasing it from a stretched position. The position of the mass at any time is described by x = (6.4 cm)cos[2nt/(1.58 s)]. Determine the following. (a) period of the motion 1.58 S (b) frequency of the oscillations 0.633 Hz (c) first time the mass is at the position x = 0 S (d) first time the mass is at the...
Hi, please answer the question. I will be more then happy to thumbs up it if...
Hi, please answer the
question. I will be more then happy to thumbs up it if it is
correct!
In class, I have finished except for the last step in deriving a general expression for the angular frequency ω for a physical pendulum ve that e momento nertias the mass of the physical pendulum m and the distance from the pivot point to the centre of mass of the physical pendulum to be dem , the expression you obtained for...
A mass is attached to the end of a spring and set into oscillation on a...
A mass is attached to the end of a spring and set into oscillation on a horizontal frictionless surface by releasing it from a stretched position. The position of the mass at any time is described by x = (7.8 cm)cos[2πt/(2.88 s)]. (c) first time the mass is at the position x = 0 s (d) first time the mass is at the site of maximum compression of the spring s
A mass rests on a frictionless surface and is attached to the end of a spring....
A mass rests on a frictionless surface and is attached to the
end of a spring. The mass is pulled so that the spring is
stretched...
I would appreciate to have a
detailed explanation for the last one. Thank you in advance.
A mass rests on a frictionless surface and is attached to the end of a spring. The mass is pulled so that the spring Is stretched. The mass Is then released, and It starts oscillating back and forth...
Could you please answer all of the following questions? 1. A 3 kg object attached to...
Could you please answer all of the following questions? 1. A 3 kg object attached to a spring oscillates with an amplitude of 15 cm and a period of 2 s. At a time t = 0.5 s, the object's position is x = 9.1 cm. Determine a) the spring constant of the spring b) the total energy of the system (in joules) c) the maximum speed of the object d) the position of the object as a function of...
please answer as many questions as possible. I will “thumb up” the answers. Thanks! 1. You are on a boat, which is bobbing up and down. The boat's vertical displacement y is given by y 1.2...
please answer as many questions as possible. I will “thumb up” the
answers. Thanks!
1. You are on a boat, which is bobbing up and down. The boat's vertical displacement y is given by y 1.2 cos(t). Find the amplitude, angular frequency, phase constant, frequency, and period of the motion. (b) Where is the boat at t 1 s? (c) Find the velocity and acceleration as functions of time t. (d) Find the initial values of the position, velocity, and...
Hi, please answer the question. I will be more then happy to
thumbs up it if it is correct!
A 0.400 kg mass is attached to a horizontal spring and oscillates such that its position vs. time plot is given below x m) 1.0 0.5 0.0 t(s) -0.5 (a) What is the period of motion? (b) What is the angular frequency? rad/s (c) What is the spring constant of the spring? PN/I (d) What is the fastest speed the mass...
Hi, please answer the
question. I will be more then happy to thumbs up it if it is
correct!
Consider a mass oscillating on a horizontal spring on a frictionless surface about the origin. If at t- 0, the mass is moving through the origin in the positive x direction, which of the following could be the v(t) for the mas vim/s m/s) vim/s) t( s) .510 15 2 t(s) t(s) -1 -1 O-2 vim/s vm/s vim/s) t( s) 2.0...
Hi, please answer the question.
I will be more then happy to thumbs up it if it is correct!
One type of cuckoo clock keeps time by having a mass bouncing on a spring. What spring constant is needed to produce a period of 0.500 s for a 0.0220 kg mass? N/m
Hi, please answer the
question. I will be more then happy to thumbs up it if it is
correct!
A uniform rod of mass m = 10 kg has length L = 65 cm . Instead of pivoting it at its end, we pivoted it at L/3 from the end as shown in the figure, we now set the rod into small angle oscillations. What is the period of the oscillation given that the moment of inertia about the pivot...
A mass is attached to the end of a spring and set into oscillation on a horizontal frictionless surface by releasing it from a stretched position. The position of the mass at any time is described by x = (6.4 cm)cos[2nt/(1.58 s)]. Determine the following. (a) period of the motion 1.58 S (b) frequency of the oscillations 0.633 Hz (c) first time the mass is at the position x = 0 S (d) first time the mass is at the...
Hi, please answer the
question. I will be more then happy to thumbs up it if it is
correct!
In class, I have finished except for the last step in deriving a general expression for the angular frequency ω for a physical pendulum ve that e momento nertias the mass of the physical pendulum m and the distance from the pivot point to the centre of mass of the physical pendulum to be dem , the expression you obtained for...
A mass rests on a frictionless surface and is attached to the
end of a spring. The mass is pulled so that the spring is
stretched...
I would appreciate to have a
detailed explanation for the last one. Thank you in advance.
A mass rests on a frictionless surface and is attached to the end of a spring. The mass is pulled so that the spring Is stretched. The mass Is then released, and It starts oscillating back and forth...
please answer as many questions as possible. I will “thumb up” the
answers. Thanks!
1. You are on a boat, which is bobbing up and down. The boat's vertical displacement y is given by y 1.2 cos(t). Find the amplitude, angular frequency, phase constant, frequency, and period of the motion. (b) Where is the boat at t 1 s? (c) Find the velocity and acceleration as functions of time t. (d) Find the initial values of the position, velocity, and...
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