A mass is vibrating at the end of a spring with a spring
constant 2.09 N/m. The figure shows a graph of its position x (in
centimetres) as a function of time t (in seconds). At what time
between t=0 s and the first maximum after t=0 s is the mass not
moving?
6. [1pt]
What is the magnitude of the acceleration of the object at the
second maximum in the x-t curve after t = 0 s?
A mass is vibrating at the end of a spring with a spring constant 2.09 N/m....
5. [1pt] A mass is vibrating at the end of a spring with a spring constant 2.09 N/m. The figure shows a graph of its position x (in centimetres) as a function of time t (in seconds). At what time between t=0 s and the first maximum after t=0 s is the mass not moving? Correct, computer gets: 5.00e-01 s 6. [1pt] What is the magnitude of the acceleration of the object at the second maximum in the x-t curve...
5. [1pt]
A mass is vibrating at the end of a spring with a spring constant
1.99 N/m. The figure shows a graph of its position x (in
centimetres) as a function of time t (in seconds). At what time
between t=0 s and the first maximum after t=0 s is the mass not
moving?
Answer:
Video tutorial
6. [1pt]
What is the magnitude of the acceleration of the object at the
second maximum in the x-t curve after t...
A mass is vibrating at the end of a spring with a spring constant 1.14 N/m. The figure shows a graph of its position x (in centimetres) as a function of time t (in seconds). A) At what time between t=0 s and the first maximum after t=0 s is the mass not moving? B) What is the magnitude of the acceleration of the object at the second maximum in the x-t curve after t = 0 s? C) What...
A mass is vibrating at the end of a spring of force constant 225N/m . The figure shows a graph of its position x as a function of time t.At what times between t=0s and t=4.5s including the endpoints of the interval, is the mass not moving?How much energy did this system originally contain?How much energy did the system lose between t= 1.00 and t= 4.00 ?Where did this energy go?
The figure shows the position-time graph of an object of mass m oscillating on the end of a massless ideal spring of
spring constant k. Answer the following questions.1. Which of the following graphs is the correct
velocity-time graph of the oscillation?2. Which of the following graphs is the correct
acceleration-time graph of the oscillation?3. If the mass of the object is m = 0.500 kg, what is
the spring constant k of the ideal spring?Hint: read o the period of...
8. [1pt] An object is undergoing simple harmonic motion. The graph shows the position of the object as a function of time. What is the first time after t = 0 s when the speed reaches a maximum? Answer: 9. [1pt] What is the first time after t = 0 s, when the magnitude of the acceleration is a maximum? Answer: 10. [1pt] What is the maximum acceleration that the object experiences? Answer: 6 דיוי די, ידידידידידין 5 4 t...
One end of a spring with a force constant of k 10.0 N/m is attached to the end of a long horizontal frictionless track and the other end is attached to a mass m = 2.20 kg which glides along the track. After you establish the equilibrium position of the mass-spring system, you move the mass in the negative direction (to the left), compressing the spring 1.73 m. You then release the mass from rest and start your stopwatch, that...
A 0.43 kg mass is attached to the end of a spring and set into oscillation on a horizontal frictionless surface by releasing it from a compressed position. The record of time is started when the oscillating mass passes through the equilibrium position and the position of the mass at any time is shown in the drawing. On a coordinate plane with a horizontal axis labeled t(s) and a vertical axis labeled x(m) there is one item, a curve that...
A mass m = 1.1 kg hangs at the end of a vertical spring whose top end is fixed to the ceiling. The spring has spring constant k = 75 N/m and negligible mass. At time t = 0 the mass is released from rest at a distance d = 0.35 m below its equilibrium height and undergoes simple harmonic motion with its position given as a function of time by y(t) = A cos(wt - φ). The positive y-axis...
A mass of 0.5 kg is attached to a horizontal spring with a spring constant of 8.0 N/m. The spring is stretched and released and it is found that the velocity of the mass is -0.204 m/s and the acceleration of the mass is +0.907 m/s2 at time t= 0.14 s. + 1. Write an expression for the position of the mass as a function of time. 2. What is the position of the mass and which direction is it...