A weight suspended from a spring is seen to bob up and down over a distance...

A weight is attached to a spring suspended from a beam. At time t = 0,...

A weight is attached to a spring suspended from a beam. At time t = 0, it is pulled down to a point 11 cm above the ground and released. After that, it bounces up and down between its minimum height of 11 cm and a maximum height of 27 cm, and its height h(t) is a sinusoidal function of time t. It first reaches a maximum height 0.8 seconds after starting. What are the mean, amplitude, phase shift and...

a water wave vibrates up and down four times each second, the distance between two successive...

a water wave vibrates up and down four times each second, the distance between two successive crests is 5 m, and the height from the lowest part to the highest part of the wave is to m. a. what is the frequency of the wave in hertz? b. what is the period of the wave in seconds? c. what is the speed of the wave in meters per second? d. what is the amplitude of the wave in meters?

A spring is hanging vertically from a shelf. When a weight of mass 0.16 kg is...

A spring is hanging vertically from a shelf. When a weight of mass 0.16 kg is hung from the spring, the spring stretches a distance 25 cm. That weight is then removed and a new weight of mass 0.30 kg is hung from the spring. This second weight is then lifted a distance of 1.8 cm and released. The weight oscillates up and down. What is the period of oscillation (in units of seconds)?

A 2 foot long spring is suspended from the ceiling. To this spring we attach a...

A 2 foot long spring is suspended from the ceiling. To this spring we attach a 32 lb weight that stretches the spring 1.99 feet into an equilibrium position. At time t = 0 we pull on the string and stretch it another 8 inches before releasing it. The friction in the spring gives rise to a damping force of 1lb with a velocity of 24 inches/second. At what time will the ball be closest to the ceiling? A. t...

From a vertical spring with spring constant of 110 ?/?, a 1.1−?? object is suspended. (a)...

From a vertical spring with spring constant of 110 ?/?, a 1.1−?? object is suspended. (a) Find the amount by which the spring is stretched from its unstrained length. (b) The object is pulled straight down by an additional distance of 0.20 ? and released from rest. Find the speed with which the object passes through its original position on its way up.

A 40N force stretches a verticle spring 0.250m. a) what mass must be suspended from the...

A 40N force stretches a verticle spring 0.250m. a) what mass must be suspended from the spring so that the period of oscillation is T=1.00s b) If the amplitude is 0.050m and the period is as said above where is the object and in what direction is it moving 0.35s after passing equilibrium, moving downward? c) What force (mag and direct) does the spring exert on the object when it is 0.030m below the equilibrium position, moving upwards?

A 4kg weight is hung vertically from a spring with stiffness k = 1 and suspended...

A 4kg weight is hung vertically from a spring with stiffness k = 1 and suspended in a vat of mysterious fluid which has no friction at all, so the effective damping coefficient is b = 0. The weight still experiences the force of gravity at g ≈ 10m/s. Initially the weight is at the equilibrium distance and has no velocity. How far from equilibrium is the weight after 5 seconds? What is the highest speed reached by the weight?

A 50-cm-long spring is suspended from the ceiling. A 330 gmass is connected to the end...

A 50-cm-long spring is suspended from the ceiling. A 330 gmass is connected to the end and held at rest with the spring unstretched. The mass is released and falls, stretching the spring by 20 cm before coming to rest at its lowest point. It then continues to oscillate vertically. a. What is the spring constant? b. What is the amplitude of the oscillation? c. What is the frequency of the oscillation?

(1A) A vertical spring with a spring constant of 8 N/m and damping constant of 0.05...

(1A) A vertical spring with a spring constant of 8 N/m and damping constant of 0.05 kg/s has a 2 kg mass suspended from it. A harmonic driving force given by F = 2 cos(1.5 t ) is applied to the mass. What is the natural angular frequency of oscillation of the mass? What is the amplitude of the oscillations at steady state? Does this amplitude decrease with time due to the damping? Why or why not? (1B) Two traveling...

Q.1: A(20 kg) weight suspended from the end of a vertical spring stretches it 20 cm....

Q.1: A(20 kg) weight suspended from the end of a vertical spring stretches it 20 cm. If an external force of (20 cos7t) is applied to the spring. Find the position of the weight at any time if initially the weight is pulled down 15 cm and given an initial velocity of 105 cm/sec downward? Assuming no air resistance.