Page 7 of 7 34. A mass-spring system undergoes SHM. The elastic potential energy at maximum stretch is 7.50 J, the mass is 0.20 ke. and the spring constant is 240 N/m. Calculate the frequency and amplitude of oscillation.
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A: Given: Block is in SHM on the end of a spring, with position given by:
Q: A block of mass m = 2 kg connected to a spring completes one oscillation every three seconds. The…
A: Solution:Given:m = mass of block = 2 kgA = amplitude of oscillation = 3 mT = time period of…
Q: A 0.2 kg block hangs from a ceiling attached to a spring of spring constant 2000 N/m. The block is…
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Q: 1. A spring with a force constant of 1200 N/m has a 55-g mass at its end. (a) If the vibrator energy…
A: Given: Constant of spring is K = 1200 N/m Ball' mass is m = 55 g = 0.055 kg
Q: A 156 g object is attached to a spring and oscillates on a horizontal air track. The object is…
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Q: A 0.2kg block hangs from a ceiling attached to a spring of spring constant 2000 N/m. The block is…
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Q: A 0.5-kg object connected to a spring with a force constant of 40.0 N/m oscillates on a frictionless…
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Q: A horizontal spring is attached to a wall at one end and a mass of 5.3 kg on the other end. The…
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Q: The total mechanical energy in a system consisting of a block attached to a spring is 14.0 J. The…
A: Given data: Mass of the block= 0.75 kg Spring constant= 110 N/m Total mechanical energy= 14 J As the…
Q: A 5 kg object is attached to a spring and is oscillating on a horizontal surface. When the object…
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Q: Delia has to measure the mass of some object. She has a spring with a known spring constant of 3.50…
A: Given that: Spring constant: k=3.50 N/m Mass of basket= M Mass of unknown mass= m Time period when…
Q: A 0.60 kg object rests on a frictionless horizontal surface, where it is attached to a massless…
A: Mass of object = 0.6 kg Spring constant = 20.5 N/m Position of object when the spring has been…
Q: ) A pendulum has maximum speed v as it swings back and forth. Use energy conservation to derive an…
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Q: A mass M is connected to a spring and can slide horizontally without friction. Stretching the spring…
A: As per our guidelines, we are supposed to answer only first three subparts in case of multiple…
Q: The total mechanical energy of a block, attached to a spring and moving in simple harmonic motion on…
A: Mechanical energy is defined as the sum of Kinetic energy and potential energy. Potential energy is…
Q: A 2.0 kg object is attached to a horizontal spring of force constant 8.0 N/m. The object is started…
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Q: A 240 gg air-track glider is attached to a spring. The glider is pushed in 11.2 cmcm against the…
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Q: An oscillating block-spring system has a mechanical energy of 4.48 J, an amplitude of 7.72 cm, and a…
A: Mechanical energy (E) = 4.48 J Amplitude (A) = 7.72 cm = 0.0772 m Maximum speed (vmax) = 1.89 m/s
Q: A pendulum of mass 200 g undergoes simple harmonic motion when acted upon by a force of 15 N. The…
A: The energy(E) of the pendulum at the center of the oscillation. given,Force(F)=15 Nspeed of…
Q: Page 7 of 7 34. A mass-spring system undergoes SHM. The elastic potential energy at maximum stretch…
A: Mass m = 0.20 kg Energy E = 7.50 J Spring constant k=240 N/m
Q: (a) Detemine the potential energy stored in the spring before the block is released. (b) Determine…
A: a) The spring’s potential energy can be represented as, Here, k and x represent the spring’s…
Q: A 2.2-kg object is suspended from a spring with k = 66 N/m. The mass is pulled 0.88 m downward from…
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Q: Find the object's speed when the spring is stretched 0.1 m.
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Q: A 37 kg block on a horizontal frictionless surface is attached to a spring. The block is exhibiting…
A: Given, m = 37 kg TE = 420 J (a) Given, KE = (6/7) PE KE + PE = 420 (6/7) PE + PE = 420 (13/7) PE =…
Q: An oscillating block-spring system has a mechanical energy of 3.03 J, an amplitude of 7.40 cm, and a…
A: Given, The mechanical energy, E=3.03 J The amplitude of oscillation, A=7.40×10-2 m The maximum…
Q: From your answer in a), find A, the amplitude of the oscillations
A: Given that,m=2 kgk=8π2 Nmx=0.5 v=-3 ms
Q: n ideal spring hangs from the ceiling. A 1.65 kg1.65 kg mass is hung from the spring, stretching the…
A: Given that The mass of the hung (m) = 1.65Kg stretching the spring a distance(x) =…
Q: height
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Q: You attach one end of a spring with a force constant k = 753 N/m to a wall and the other end to a…
A: Part (a) Given: The force constant of a spring is k=753 N/m. The mass of the block is m=2.42 kg.…
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- A spring is hung from a ceiling, and an object attached to its lower end stretches the spring by a distance of 5.00 cm from its unstretched position when the system is in equilibrium. If the spring constant is 47.4 N/m, determine the mass of the object. kgA vertical spring stretches 8.2 cm when a 1.6 kg block is hung from its end. (a) Calculate the spring constant. This block is then displaced an additional 4.8 cm downward and released from rest. Find the (b) period, (c) frequency, (d) amplitude, and (e) maximum speed of the resulting SHM.Asap
- A 0.40 kg ball is suspended from a spring with spring constant 12 N/m. If the ball is pulled down 0.20 m from the equilibrium position and released, what is its maximum speed while it oscillates?A mass on a spring, moving with simple harmonic motion, vibrates with a frequency of 4.0 Hz and an amplitude of 8.0 cm. If x = 8.0 cm when t = 0, find its speed when t = 3 s.. A mass is placed on a frictionless, horizontal table. A spring (k=99 N/m) which can be stretched or compressed, is placed on the table. A 6 kg mass is attached to one end of the spring, the other end is anchored to the wall. The equilibrium position is marked at zero. A student moves the mass out to x= 3 cm and releases it from rest. The mass oscillates in SHM. (a) Determine the equations of motion in terms of the amplitude 'A', the angular velocity 'w', and the time 't'. Use the initial conditions to find the value of in the equations. Hint: Use the equation editor (orange button in the answer box) and find w in the greek letters. DO NOT USE numerical values for A and @ for part (a). For example, a equation could be x(t)= Asin (wt). x(t)= m v(t)= a(t)= m/s m/s² (b) Calculate for this spring-mass system. @= rad/ s (c) Find the position, velocity, and acceleration of the mass at time t=2.8 s. Use @ up to 4 significant figures in the calculation. Note: Should you set your calculator in…