Consider two cases involving mass oscillating on a spring. In Case 1 a mass on a...

Q1-For a mass 206g oscillating on a spring, its maximum speed is 0.75m/s. If the spring...

Q1-For a mass 206g oscillating on a spring, its maximum speed is 0.75m/s. If the spring constant is 71.2N/m, what is the maximum stretch (in unit of cm) of the spring during oscillation? Q2-A spring is stretched, and stores an elastic potential energy of 332 joule. How much (in cm) has the spring be stretched if it has a spring constant of 136 N/m? Q3For the application part of this experiment, you have a spring of spring constant 154N/m. You...

Consider a mass-spring system. The spring has constant k=30N/m and the mass m=3kg. The mass oscillates...

Consider a mass-spring system. The spring has constant k=30N/m and the mass m=3kg. The mass oscillates with amplitude of 10cm. What is the frequency of oscillation? What is the displacement at time t=0? When is the first time for the mass to be at maximum displacement? (t=?) What is the maximum acceleration felt by the mass? Where in the motion does this occur? What is the minimum acceleration felt by the mass? Where in the motion does this occur? What...

Consider a 0.85 kg mass oscillating on a massless spring with spring constant of 45 N/m....

Consider a 0.85 kg mass oscillating on a massless spring with spring constant of 45 N/m. This object reaches a maximum position of 12 cm from equilibrium. a) Determine the angular frequency of this mass. Then, determine the b) force, c) acceleration, d) elastic potential energy, e) kinetic energy, and f) velocity that it experiences at its maximum position. Determine the g) force, h) acceleration, i) elastic potential energy, j) kinetic energy, and k) velocity that it experiences at the...

1)A heavy truck drives down a street, causing a streetlight to start oscillating. The amplitude of...

1)A heavy truck drives down a street, causing a streetlight to start oscillating. The amplitude of the oscillation is initially -0.188m, and it is 0.1644m 8.24s later -Calculate the damping constant of this oscillation. -Calculate the amplitude of the oscillation 9.47s after the truck passed the streetlight. 2)A laboratory mass of 0.667kg  is suspended from a vertical spring and set to oscillating. You measure its amplitude and obtain0.448m ; you measure the period and obtain 1.32s. (a) Calculate the force constant...

13.7 The equation for the position as a function of time for an oscillating spring is...

13.7 The equation for the position as a function of time for an oscillating spring is given by x  30cmcos 25t where x is in centimeters when t is in seconds. a) What is the frequency? b) If the mass on the spring is 1.2 kg, what is the spring constant of the spring? c) What is the position at t = 0.025 s? d) What is the position at t = 0.09 s ? 13.8 The maximum potential...

Motion of an oscillating mass [0.75 kg] attached to the spring is described by the equation...

Motion of an oscillating mass [0.75 kg] attached to the spring is described by the equation below: (??) = 7.4 (????) ?????? [(4.16 ?????? ?? ) ?? ? 2.42] Find: a. Amplitude b. Frequency c. Time Period d. Spring constant e. Velocity at the mean position f. Potential energy g. at the extreme position.

1) A 2.0kg mass is fastened to the end of a spring with a spring constant...

1) A 2.0kg mass is fastened to the end of a spring with a spring constant of 200 N/m. At t = 0 the mass is at equilibrium position and has a velocity of +1.0m/s. a) What is the angular frequency, frequency and period (include units)? b)From the initial conditions, calculate the amplitude and phase angle of the oscillation, then express its displacement, velocity and acceleration as functions of time. Remember that the amplitude is positive. c) Tabulate the displacement,...

1. Calculate the spring constant ,k, for a spring, if the spring stretches by 0.2 m...

1. Calculate the spring constant ,k, for a spring, if the spring stretches by 0.2 m as a result of an applied force of 200N. 2. A 20 kg mass is attached to a spring with spring constant, K=100 N/m. The spring/mass system is stretched by 5cm, and then released from rest and allowed to oscillate back and forth A.) What is the amplitude of vibration in this system? B.) Calculate the acceleration of the mass at X=0. 3. In...

You hang a 175 g mass on a spring and start it oscillating with an amplitude...

You hang a 175 g mass on a spring and start it oscillating with an amplitude of 7 cm and a phase constant of −π/3. a. If the spring stretched 16 cm when you first hang the mass on it, how long will one oscillation take? b. Draw a position vs. time graph for two cycles of motion. Consider the position y = 0 to be the equilibrium position of the mass hanging on the spring. c. Will the velocity...

A particle with mass 1.67 kg oscillates horizontally at the end of a horizontal spring. A...

A particle with mass 1.67 kg oscillates horizontally at the end of a horizontal spring. A student measures an amplitude of 0.803 m and a duration of 129 s for 74 cycles of oscillation. Find the frequency, f, the speed at the equilibrium position, vmax, the spring constant, k, the potential energy at an endpoint, Umax, the potential energy when the particle is located 46.9% of the amplitude away from the equilibrium position, U, and the kinetic energy, K, and...