Two identical springs of spring constant 7580 N/m are attached to a block of mass 0.291 kg. What is the frequency of oscillation on the frictionless floor? Enter units as Hz.
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Two identical springs of spring constant 7580 N/m are attached to a block of mass 0.291 kg. What is the frequency of oscillation on the frictionless floor? Enter units as Hz.
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- A mass m = 2.75 kg is at the end of a horizontal spring on a frictionless horizontal surface. The mass is oscillating with an amplitude A= 4.5 cm and a frequency f = 0.25 Hz Part (a) Write an equation for the spring constant k. Part (b) Calculate the spring constant k, in Newtons per meter. Part (c) Write an equation for the total mechanical energy, E, of the motion. Your expression should be in terms of the variables in the original problem statement. Part (d) Calculate the total mechanical energy E, in joules. Part (e) If the amplitude is doubled, what happens to the total mechanical energy? Choose the best answer: E is halved. E remains unchanged. It cannot be determined with the information provided. E increases by a factor of four. E doubles.A simple pendulum makes 105 complete oscillations in 3.20 min at a location where g = 9.80 m/s2. Find the period of the pendulum (s). Find the length of the pendulum (m).A spring-mass system is oscillating with maximum displacement of 0.88 m and its maximum speed is 3.37 m/s. If the mass is 0.53 kg. What is the spring constant?
- Mass and Spring: A 3.4 kg mass hangs in equilibrium from a spring. When the mass is displaced by 0.08 m and released from rest, it reaches a top speed of 2.5 m/s as it oscillates. A group of students records the motion of = 4520. the spring for 242 seconds and deduces the system has a quality factor of Q (a) What is the period of oscillation? (b) What is the spring constant of the spring?A 2.2-kg object is suspended from a spring with k = 66 N/m. The mass is pulled 0.88 m downward from its equilibrium position and allowed to oscillate. What is the maximum kinetic energy of the object? ROUND OFF ANSWER UP TO 2 DECIMAL PLACES. INPUT BOTH THE NUMBER AND THE UNIT (ABBREVIATION OF UNIT ONLY).An oscillating block-spring system takes 0.635 s to begin repeating its motion. Find (a) the period, (b) the frequency in hertz, and (c) the angular frequency in radians per second.
- A 190 g mass suspended from a spring oscillates in simple harmonic motion. The mass completes 2 cycles every second. Calculate the spring constant.An oscillating block-spring system has a mechanical energy of 3.03 J, an amplitude of 7.40 cm, and a maximum speed of 4.95 m/s. Find (a) the spring constant, (b) the mass of the block and (c) the frequency of oscillation. (a) Number 81.89 (b) Number 0.018 (c) Number 10.65 Units N/m Units kg Units HzA mass m at the end of a spring oscillates with a frequency of 0.78 Hz. When an additional 770 g mass is added to m, the frequency is 0.61 Hz. What is the value of m?
- A spring is attached to the ceiling and pulled 7 cm down from equilibrium and released. The amplitude decreases by 12% each second. The spring oscillates 17 times each second. Find an equation for the distance, D the end of the spring is below equilibrium in terms of seconds, t. D(t) =What is the frequency (in Hertz) of a simple pendulum 1.7 m long in an elevator accelerating upwards at a rate of 9.6 m/s2? Final answer in one decimal place.A pendulum is formed by placing a horizontal axis at various positions of a measuring stick of length 108 cm. What is the period in seconds of the pendulum when the axis is placed at the 81.0-cm mark?