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17) A 2.0 kg box is traveling at 5.0 m/s on a smooth horizontal surface when...
A 2.0 kg box is traveling at 5.0 m/s on a smooth horizontal surface when it...
A 2.0 kg box is traveling at 5.0 m/s on a smooth horizontal surface when it collides with and sticks to a stationary 6.0 kg box. The larger box is attached to an ideal spring of force constant (spring constant) 150 N/m, as shown in the figure. Find the amplitude of the resulting oscillations of this system, the frequency of the oscillations and the period of the oscillations.
A 2.0 kg box is traveling at 5.0 m/s on a smooth horizontal surface when it...
A 2.0 kg box is traveling at 5.0 m/s on a smooth horizontal surface when it collides with and sticks to a stationary 6.0 kg box. The larger box is attached to an ideal spring of force constant (spring constant) 150 N/m. Write down the equation for the horizontal position x of the boxes as a function of time t, using the cosine function. Note: you must show all of your calculation for each numbers in the position equation. Additionally, please take...
A 30.0-kg mass is traveling to the right with a speed of 2.20 m/s on a smooth horizontal surface when it collides with a...
A 30.0-kg mass is traveling to the right with a speed of 2.20 m/s on a smooth horizontal surface when it collides with and sticks to a second 30.0-kg mass that is initially at rest but is attached to a light spring with force constant 190 N/m. The other end of the spring is fixed to a wall to the right of the second mass. A. Find the frequency of the subsequent oscillations. B. Find the amplitude of the subsequent...
A 30.0 kg mass is traveling to the right with a speed of 2.40 m/s on...
A 30.0 kg mass is traveling to the right with a speed of 2.40 m/s on a smooth horizontal surface when it collides with and sticks to a second 30.0 kg mass that is initially at rest but is attached to one end of a light, horizontal spring with force constant 170.0 N/m. The other end of the spring is fixed to a wall to the right of the second mass. a)Find the frequency of the subsequent oscillations. b)Find the...
a 5.0 kg mass has a spring, k = 80 N/m, attached to it and it...
a 5.0 kg mass has a spring, k = 80 N/m, attached to it and it is moving at 6.0 m/s to the right. the end with the spring collides with a 10 kg mass that is stationary. determine the maximum compression of the spring
3. A 1.2 kg block sliding at 6.0 m/s on a frictionless surface runs into and...
3. A 1.2 kg block sliding at 6.0 m/s on a frictionless surface runs into and sticks to a spring. The spring is compressed 0.10 m before stopping the block and starting its motion back in the opposite direction. a. Calculate the energy of vibration. b. Calculate the force constant of the spring. c. Calculate the period of vibration of the system. d. Write the equation of motion of the block when its oscillating. We were unable to transcribe this...
In the figure, a 5.00-kg block is moving at 5 m/s along a horizontal frictionless surface...
In the figure, a 5.00-kg block is moving at 5 m/s along a horizontal frictionless surface toward an ideal massless spring that is attached to a wall. After the block collides with the spring, the spring is compressed a maximum distance of 0.68 m. What is the speed of the block in m/s when it has moved so that the spring is compressed to a distance of 0.495 m? 5.00 kg 5.00 m/s
A small box with mass 0.7 kg is attached to a spring (k=300 N/m )...
A small box with mass 0.7 kg is attached to a spring (k=300 N/m ) and oscillates left and right. At a particular moment, the box is 20 cm to the right of its equilibrium position moving left with a speed of 2 m/s . What is the maximum distance to the right of its equilibrium position the box will reach? What is the maximum speed the box will have? What is the period of the box's oscillations?
A small box with mass 0.5 kg is attached to a spring (k=350 N/m )...
A small box with mass 0.5 kg is attached to a spring (k=350 N/m ) and oscillates left and right. At a particular moment, the box is 25 cm to the right of its equilibrium position moving left with a speed of 3 m/s. A) What is the maximum distance to the right of its equilibrium position the box will reach? B) What is the maximum speed the box will have? C) What is the period of the box's...
A small box with mass 0.6 kg is attached to a spring (k=350 N/m )...
A small box with mass 0.6 kg is attached to a spring (k=350 N/m ) and oscillates left and right. At a particular moment, the box is 25 cm to the right of its equilibrium position moving left with a speed of 4 m/s . A) What is the maximum distance to the right of its equilibrium position the box will reach? B) What is the maximum speed the box will have? C) What is the period of the...
A 2.0 kg box is traveling at 5.0 m/s on a smooth horizontal surface when it collides with and sticks to a stationary 6.0 kg box. The larger box is attached to an ideal spring of force constant (spring constant) 150 N/m, as shown in the figure. Find the amplitude of the resulting oscillations of this system, the frequency of the oscillations and the period of the oscillations.
3. A 1.2 kg block sliding at 6.0 m/s on a frictionless surface runs into and sticks to a spring. The spring is compressed 0.10 m before stopping the block and starting its motion back in the opposite direction. a. Calculate the energy of vibration. b. Calculate the force constant of the spring. c. Calculate the period of vibration of the system. d. Write the equation of motion of the block when its oscillating. We were unable to transcribe this...
In the figure, a 5.00-kg block is moving at 5 m/s along a horizontal frictionless surface toward an ideal massless spring that is attached to a wall. After the block collides with the spring, the spring is compressed a maximum distance of 0.68 m. What is the speed of the block in m/s when it has moved so that the spring is compressed to a distance of 0.495 m? 5.00 kg 5.00 m/s
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