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College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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
Transcribed Image Text:A mass of 1.23 kg is attached to an ideal spring with a spring constant of
235 N/m and set into oscillations with an amplitude of 0.08 m. What
distance from equilibrium is the mass when its speed is 0.387 m/s? Just
enter a number rounded to 3 significant figures. Assume proper SI Units.
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- The figure blow shows the kinetic energy of a simple pendulum versus its angle θ from the vertical. Note the energy units are in milli-joules. The vertical axis is set by Ks=4mJ and the mass of the pendulum bob is 0.200 kg. Determine the length of the pendulum in meters. Use g = 9.8 N/kg.arrow_forwardA pendulum has a period of 5.8 s. If you were to transfer this pendulum to the surface of Mars (where g is 3.71 meters per second squared), what would the period (in seconds) be?arrow_forwardAn object is attached to a coiled spring. The object is pulled down (negative direction from the rest position) 9 centimeters, and then released. Write an equation for the distance d of the object from its rest position, after t seconds if the amplitude is 9 centimeters and the period is 6 seconds. The equation for the distance d of the object from its rest position is (Type an exact answer, using z as needed. Use integers or fractions for any numbers in the equation.) (? Enter your answer in the answer box. Save for Later 3:18 PM O Type here to search O 11/15/2020 PgUp PgDn F12 DII PrtScn Home F9 End F10 F11 Ins F4 F5 F6 F7 F8 F1 F2 F3 2$ & ) %23 %3D 3. 4. 5 6 7 8 E R Y U | [ Tarrow_forward
- If the mass is 48kg and the spring constant is 12n/m,what is the period of oscillation?arrow_forwardSuppose the oscillatory motion of an object can be modeled using the equation s(t) = 0.5sin(0.21t) where time is measured in seconds and distance is measured in inches. Find the time (in seconds) required for the object to complete one oscillation. (Provide 4 decimal places.)arrow_forwardSuppose you measure that a pendulum makes 3 oscillations in 10.04 seconds. In units of Hertz, what is the frequency of oscillation?arrow_forward
- Consider a spring with a spring constant of (12.6 + A) N/m. What mass would you need to hang on the spring to achieve a period of (0.500 + B/100) s? Give your answer in grams (g) with 3 significant figures. A=20 B=78arrow_forwardMärkxsfH) Problem 1: A mass of 20 grams stretches a spring by 10/169 meters. (a) Find the spring constant k, the angular frequency w, as well as the period T and frequency f of free undamped motion for this spring-mass system. (b) Find the general solution x(t) of the DE for the free spring-mass system. (c) Suppose that an exterior force of F(t) = 2.5 sin(12t) in Newtons acts on the spring-mass system. Find the equation of motion (the solution x(t)) of the system if the mass initially is at rest in its equilibrium position.arrow_forward
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