A simple pendulum is a simple harmonic oscillator if А there is no gravity acting on it. the mass of its spring is negligible. its oscillation angle is smaller than 10⁰. ABC с
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A: Given:Time period on earth, T=1.5 sGravitational acceleration on earth, g=9.8 m/s2Gravitational…
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Q: A simple pendulum makes 100 complete oscillations in 3.30 min at a location where g = 9.80 m/s2.…
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Q: The acceleration due to gravity in this problem is taken to be g = 9.80 m/ s2 , unless otherwise…
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- A uniform circular disk whose radius R is 17.8 cm is suspended as a physical pendulum from a point on its rim. (a) What is its period? (b) At what radial distance r < R is there a pivot point that gives the same period? (give answer in cm) (a) NumbelM Units 1.0366 (b) Numberx Units 100.102 cmA mass on a spring oscillates with an angular frequency w, while on the surface of the Earth. This system is then placed on the Moon, which has a surface gravitational acceleration 6 times less than Earth. As a result, the angular frequency of oscillation is a) wo/6 b) wo/V6 c) Wo d) V6 - wo e) 6 · wo A mass on a spring oscillates with simple harmonic motion. In terms of the amplitude A, what is the compression x of the spring when the kinetic energy is 3 times larger than the potential energy? a) A/9 b) A/3What happens to the frequency of oscillations of a physical pendulum when the amplitude of oscillations increases by a factor of 2? O Oscillation frequency increases by a factor of 4. O Oscillation frequency decreases by a factor of 2. O Oscillation frequency stays the same. O Oscillation frequency increases by a factor of 2. What happens to the energy of oscillations in this case? O Energy of oscillations increases by a factor of 2. O Energy of oscillations increases by a factor of 4. O Energy of oscillations stays the same. O Energy of oscillations decreases by a factor of 2.
- An astronaut oscillates on a 4400 n/m spring at a frequency of 1.1 hz and amplitude of .23 m. What is the mass of the astronaut?Mass = 8.0kg hung from the ceiling Spring constant = 500N/m Stretched 15.7cm from the original position. It is stretched 6.0cm further downwards. The block is released and undergoes simple harmonic motion. What is the initial vertical acceleration of the mass?Two simple harmonic oscillators H1 and H2 of masses on a spring have masses m1 and m2, spring constants k1 and k2, and amplitudes A1 and A2. It is found that the total mechanical energy of H2 equals 4H1. Which one of the following will NOT give this relationship? mị = m2 ; 4k1 = k2 ; A1 = A2 4m1 = m2 ; 4k1 = k2 ; Aı = A2 mi = m2 ; 2kı = k2 ; (v2) A1 = A2 4m1 = m2 ; kı = k2 ; A1 = A2
- A simple pendulum makes 100 complete oscillations in 3.30 min at a location where g = 9.80 m/s2. (a) Find the period of the pendulum. s(b) Find the length of the pendulum. mA mass-spring system oscillates with an amplitude of 4.00 cm. If the spring constant is 241 N/m and the mass is 472 g, determine the mechanical energy of the system. Determine the maximum speed of the object. Determine the maximum acceleration.A simple pendulum of mass m = unknown, oscillates with a period T = 1.70 s. What planet is it? 2.00 kg and length L = 0.820 m on planet X, where the value of g is Venus, g = 8.87 m/s² Jupiter, g = 24.8 m/s2 Neptune, g = 11.2 m/s2 Mercury, g = 3.70 m/s2 Earth, g = 9.81 m/s2
- b. An object with a mass of 0.2 kg attached to a spring exhibits simple harmonic motion according to the equation x = 0.04 cos ( 20zt +"). Find the frequency and the period of the oscillation. Find the velocity of the particle, its acceleration and the acting force, as well as the amplitudes of the respective quantities. wwwip Figure 3: Question 2(b) A spring mass systemWhen a 0.120-kg air-track cart is attached to a horizontal spring it oscillates with an amplitude of 0.0750 m and a maximum speed of 0.524 m>s. Find (a) the force constant and (b) the period of motionA simple pendulum has a length of 52.6 cm and makes 81.8 complete oscillations in 2.00 min. (a) Find the period of the pendulum. IS (b) Find the value of g at the location of the pendulum. .2 m/s?