A block whose mass m is 0.5 kg is fastened to a spring whose spring constant...
A block whose mass m is 0.5 kg is fastened to a spring whose spring constant is K = 12.5N/m. The block is pulled a distance 0.05 m from its equilibrium position at x = 0 on a frictionless surface and released from rest at t=0.
a) Angular frequency? (Include the symbol and unit of measurement )
b) Frequency? (Include the symbol and unit of measurement )
c) Period? (Include the symbol and unit of measurement )
d) Amplitude? (Include the symbol and unit of measurement )
e) Draw a time line between 0 and 1 second. Sketch the shape of this Oscillation, label the period and amplitude on your sketch.
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A block whose mass m is 0.5 kg is fastened to a spring whose
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a block whose mass m is 0.65 kg is fastened to a spring whose spring constant...
a block whose mass m is 0.65 kg is fastened to a spring whose spring constant k =65 n the block is pulled a distance x=11cm from its equilibrium position at x=0 on a frictionless surface and released from rest at t=0. what are the angular, f, t? what is the amplitude? PE?KE?Etotal at t=T/6 Vmax? where the block when it occurs
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(10%) Problem 4: A mass m= 3.6 kg is at the end of a horizontal spring...
(10%) Problem 4: A mass m= 3.6 kg is at the end of a horizontal spring of spring constant k=185 N/m on a frictionless horizontal surface. The block is pulled, stretching the spring a distance A = 5.5 cm from equilibrium, and released from rest. A 17% Part (a) Write an equation for the angular frequency w of the oscillation. HA17% Part (b) Calculate the angular frequency w of the oscillation in rad/seconds. A 17% Part (c) Write an equation...
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(10%) Problem 4: A mass m= 3.6 kg is at the end of a horizontal spring of spring constant k=185 N/m on a frictionless horizontal surface. The block is pulled, stretching the spring a distance A = 5.5 cm from equilibrium, and released from rest. A 17% Part (a) Write an equation for the angular frequency w of the oscillation. HA17% Part (b) Calculate the angular frequency w of the oscillation in rad/seconds. A 17% Part (c) Write an equation...
A block of mass m = 6.04 kg is attached to a spring with spring constant k = 1572 N/m and rests on a frictionless surface. The block is pulled, stretching the spring a distance of 0.170 m, and is held still. The block is then released and moves in simple harmonic motion about the equilibrium position. (Assume that the block is stretched in the positive direction.) (a) What is the frequency of this oscillation? 2.57 Hz (b) Where is...
A block of mass m = 2.00 kg is attached to a spring of force constant k = 5.65 x 102 N/m that lies on a horizontal frictionless surface as shown in the figure below. The block is pulled to a position Xi = 5.45 cm to the right of equilibrium and released from rest. x=0 x=x; (a) Find the the work required to stretch the spring (b) Find the speed the block has as it passes through equilibrium m/s
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