A small block is attached to an ideal spring and is moving in SHM on a...
A small block is attached to
an ideal spring and is moving in SHM on a horizontal, frictionless
surface. When the block is at position x, the acceleration
of the block has magnitude a. What is
the frequency of the motion in terms of given quantites and any
constant(s) you may need?
Homework Answers
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A small block is attached to
an ideal spring and is moving in SHM on a...
A small block is attached to an ideal spring and is moving in SHM on a...
A small block is attached to an ideal spring and is moving in SHM on a horizontal frictionless surface. The amplitude of the motion is 0.155 m . The maximum speed of the block is 4.50 m/s . What is the maximum magnitude of the acceleration of the block?
A small block is attached to an ideal spring and is moving in SHM on a...
A small block is attached to an ideal spring and is moving in SHM on a horizontal frictionless surface. The amplitude of the motion is 0.155 m . The maximum speed of the block is 4.10 m/s .What is the maximum magnitude of the acceleration of the block?
A small block is attached to an ideal spring and is moving in SHM on a...
A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface. The amplitude of the motion is 0.300mand the period is 3.39s . Part A What is the acceleration of the block when x= 0.160m ? Express your answer with the appropriate units. Part B What is the speed of the block when x= 0.160m ? Express your answer with the appropriate units
A small block is attached to an ideal spring and is moving in SHM on a...
A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface. When the amplitude of the motion is 0.098 m, it takes the block 2.67 s to travel from x = 0.098 m to x = -0.098 m. part A: if the amplitude is changed to 0.22 m, how long does it take the block to travel from x = 0 m to x = 0.098 m ? (......s)
Constants A small block is attached to an ideal spring and is moving in SHM on...
Constants A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface The amplitude of the motion is 0.250 m and the period is 3.32 s Part A What is the acceleration of the block when z-0.160 m? Express your answer with the appropriate units. 떠 a Value 丘 區 ? Units Reguest Answer Part B What is the speed of the block when 0.160 m ? Express your answer with the...
Constants A small block is attached to an ideal spring and is moving in SHM on...
Constants A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface. The amplitude of the motion is 0.260 m and the period is 3.38 s What is the acceleration of the block when 0.160 m? Express your answer with the appropriate units. IA | az = 1 Value Units Submit Request Answer Part B What is the speed of the block when -0.160 m? Express your answer with the appropriate units....
A small block is attached to an ideal spring and is moving in SHM on a...
A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface. When the amplitude of the motion is 0.090 m , it takes the block 2.40 s to travel from x= 0.090 m to x= -0.090 m . A- If the amplitude is doubled, to 0.180 m , how long does it take the block to travel from x= 0.180 m to x= -0.180 m ? B- If the amplitude is doubled,...
Problem 5. A block of unknown mass is attached to a spring with a force constant...
Problem 5. A block of unknown mass is attached to a spring with a force constant of 8.00 N/m and under- goes SHM on a horizontal, frictionless surface with an amplitude of 12.0 cm. The ofther end of the spring is fixed. When the block is halfway between its equilibrium position and the end point, its speed is 30.0 cm/s Calculate (a) the mass of the block (b) the period of the motion (c) the maximum acceleration of the block
a 4.5 kg block on a horizontal frictionless surface is attached to an ideal spring whose...
a 4.5 kg block on a horizontal frictionless surface is attached to an ideal spring whose force constant (spring constant) is 450 N. The block is pulled from its equilibrium position at x=0.000 m to a position x=+0.080 m and is released from rest. The block then executes harmonic motion along the horizontal x-axis. The maximum kinetic energy of the system is closest to _____?
A 0.39-kg block on a horizontal frictionless surface is attached to an ideal spring
A 0.39-kg block on a horizontal frictionless surface is attached to an ideal spring whose force constant (spring constant) is 540 N / m. The block is pulled from its equilibrium position at x=0.000 m to a displacement x=+0.080 m and is released from rest. The block then executes simple harmonic motion along the horizontal x-axis. When the block's position is x=0.057 m, its kinetic energy is closest toA. 1.0 J.B. 0.85 JC. 0.80 JD. 0.95 J.E. 1.1 J.
Constants A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface The amplitude of the motion is 0.250 m and the period is 3.32 s Part A What is the acceleration of the block when z-0.160 m? Express your answer with the appropriate units. 떠 a Value 丘 區 ? Units Reguest Answer Part B What is the speed of the block when 0.160 m ? Express your answer with the...
Constants A small block is attached to an ideal spring and is moving in SHM on a horizontal, frictionless surface. The amplitude of the motion is 0.260 m and the period is 3.38 s What is the acceleration of the block when 0.160 m? Express your answer with the appropriate units. IA | az = 1 Value Units Submit Request Answer Part B What is the speed of the block when -0.160 m? Express your answer with the appropriate units....
Problem 5. A block of unknown mass is attached to a spring with a force constant of 8.00 N/m and under- goes SHM on a horizontal, frictionless surface with an amplitude of 12.0 cm. The ofther end of the spring is fixed. When the block is halfway between its equilibrium position and the end point, its speed is 30.0 cm/s Calculate (a) the mass of the block (b) the period of the motion (c) the maximum acceleration of the block
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