Evaluate the speed of longitudinal waves on the spring for a spring with m = 0.240...

The speed of longitudinal waves traveling in a long, solid rod is given by the following...

The speed of longitudinal waves traveling in a long, solid rod is given by the following equation, where Y is Young's modulus and ? is the density of the solid. v = sqrt((Y )/(?)) If a disturbance has a frequency of 44 Hz, what is the wavelength of the waves it produces in each of the following substances? [Hint: See Tables 9.1 and 9.2.] (a) an aluminum rod m (b) a copper rod m

A 880·kg car strikes a huge spring at a speed of 16·m/s, compressing it 11.0·m. (a)...

A 880·kg car strikes a huge spring at a speed of 16·m/s, compressing it 11.0·m. (a) What is the spring constant of the spring? N/m (b) How long does the spring take to stop the car? s

A 0.400-kg object attached to a spring with a force constant of 8.00 N/m vibrates in...

A 0.400-kg object attached to a spring with a force constant of 8.00 N/m vibrates in simple harmonic motion with an amplitude of 12.2 cm. the maximum value of its speed is 54.6 WHAT IS THE MAXIMUM VALUE OF IT'S ACCELERATION? QUESTION 2 A 45.0-g object connected to a spring with a force constant of 40.0 N/m oscillates with an amplitude of 7.00 cm on a frictionless, horizontal surface. the total energy of the system is 98 the speed of...

A spring with spring constant k = 45 N/m and unstretched length of L0 = 1...

A spring with spring constant k = 45 N/m and unstretched length of L0 = 1 is attached to the ceiling. A block of mass m = 2.5 kg is hung gently on the end of the spring. 1) How far does the spring stretch? .545 m 2) Now the block is pulled down until the total amount the spring is stretched is twice the amount found in the above question. The block is then pushed upward with an initial...

Consider a 10 kg block attached to a spring whose spring constant is k 1000 N/m,...

Consider a 10 kg block attached to a spring whose spring constant is k 1000 N/m, originally in equilibrium. The block is then given an initial speed of 4 m/s. The maximum deviation (in meters) from equilibrium achieved by the oscillating block is closest to

A 0.240 g pebble is fired at a speed of 14.6 m/s from the top of...

A 0.240 g pebble is fired at a speed of 14.6 m/s from the top of a 20.0 m tall building. Ignoring air resistance, find the kinetic energy with which the pebble strikes the ground when the pebble is fired vertically straight up. A ball which is thrown straight up takes 3.50 s to reach the maximum height. Determine the gravitational potential energy of the ball (m = 0.145 kg) when it reaches the maximum height.

A 2.30 kg frictionless block is attached to an ideal spring with force constant 314 N/m...

A 2.30 kg frictionless block is attached to an ideal spring with force constant 314 N/m . Initially the block has velocity -3.50 m/s and displacement 0.240 m . Find the amplitude of the motion.? Find the maximum acceleration of the block.? Find the maximum force the spring exerts on the block.?

One end of a horizontal spring with force constant 130.0 N/m N / m is attached...

One end of a horizontal spring with force constant 130.0 N/m N / m is attached to a vertical wall. A 5.00-kg k g block sitting on the floor is placed against the spring. The coefficient of kinetic friction between the block and the floor is μk μ k = 0.400. You apply a constant force F⃗ F → to the block. F⃗ F → has magnitude 81.0 N N and is directed toward the wall. The spring is compressed...

You have been asked to design a "ballistic spring system" to measure the speed of bullets....

You have been asked to design a "ballistic spring system" to measure the speed of bullets. A bullet of mass mmm is fired into a block of mass MMM. The block, with the embedded bullet, then slides across a frictionless table and collides with a horizontal spring whose spring constant is k. The opposite end of the spring is anchored to a wall. The spring's maximum compression d is measured. What was the speed of a 1.8 gg bullet if...

A continuous sinusoidal longitudinal wave is sent along a very long coiled spring from an attached...

A continuous sinusoidal longitudinal wave is sent along a very long coiled spring from an attached oscillating source. The wave travels in the negative direction of an x axis; the source frequency is 24 Hz; at any instant the distance between successive points of maximum expansion in the spring is 20 cm; the maximum longitudinal displacement of a spring particle is 0.69 cm; and the particle at x = 0 has zero displacement at time t = 0. If the...