height
Q: *11. ssm A spring is hanging down from the ceiling, and an object of mass m is attached to the free…
A: Write the dimensions of time and mass, respectively.
Q: A 17.2-kg mass is attached to a horizontal frictionless spring. The system has a spring with a…
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Q: h one end of a spring with a force constant k = 753 N/m to a wall and the other end to a mass m =…
A: Givenk=753 N/mm=1.42 kgxi=6.56 cm=0.0656 m
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: A spring (k = 61.5 N/m) hangs vertically with its top end fixed. A mass attached to the bottom of…
A: Spring constant,
Q: PROBLEM 3: A particle executes simple harmonic motion with an amplitude of 3.00 cm. At what…
A: Note: As per the guidelines, we can only answer first question of multiple questions. Sorry for the…
Q: A spring with spring constant 15 N/m hangs from the ceiling. A ball is attached to the spring and…
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Q: A 2.8 kg block is set on a horizontal table. One end of a spring is attached to the block, and the…
A: When block is released ,it will execute S.H.M. with Max elongation,A = 30 cm = 0.30 m . Mass of the…
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: 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: Ax m k
A: When the spring is stretched by an amount x then the restoring force acting on it is F=kx. From the…
Q: spring with k = 15.0 N/m hangs from the ceiling. A ball is suspended from the spring and allowed to…
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Q: The 12.1-in. spring is compressed to a 7.2-in. length, where it is released from rest and…
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Q: The acceleration due to gravity in this problem is taken to be g = 9.80 m/ s2 , unless otherwise…
A: The time period T (in seconds ) of simple pendulum is given by…
Q: A simple pendulum with a length of 1.83 m and a mass of 6.54 kg is given an initial speed of 2.76…
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Q: A 2.0 kg object is attached to a horizontal spring of force constant 8.0 N/m. The object is started…
A: When the damping force is proportional to the velocity of the oscillator, then the differential…
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: A mass of 7 kg hangs from a spring attached to the ceiling. The spring has a spring constant of 500…
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Q: Find the object's speed when the spring is stretched 0.1 m.
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Q: (а) в (Б) с (с) С
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Q: The suspension system of a 2100 kg automobile "sags" 7.0 cm when the chassis is placed on it. Also,…
A: Mass of each wheel is Compression in the spring is Total mass of the given system is The amplitude…
Q: presents a model for solving this problem. As far as vertical oscillations are concerned, a certain…
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Q: A mass of 8.0 kg hangs from a spring attached to the ceiling. The spring has a spring constant of…
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Q: spiral staircase wind up to the top of the tower in an old castle. To measure the height of the…
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A spring is mounted vertically on the floor. The mass of the spring is negligible. A certain object is placed on the spring to compress it. When the object is pushed further down by just a bit and the released, one up/ down oscillation cycle occurs in 0.230s. However, when the object is pushed by 5.32 x 10-2 m from unstrained position to point P and then released, the object flies entirely off the spring. To what height above point P does the object rise in the absence of air resistance?
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- Aweight is attached to a spring and is suspended from a ceiling so that it lies 30 cm from the ceiling when it is at rest. The spring is stretched so that the weight is 38 cm from the ceiling and is then released. It bounces up and down for a while. Each time it comes to the bottom of its bounce, the length of the stretch is 75% of the previous stretch. a) The period of each oscillation (bounce) is 1/2 second. Write an equation that represents the distance from the weight to the ceiling. b) Draw a graph of the function. c) Without doing any calculations, state the distance of the spring from the ceiling after 1 minuteA horizontal spring is attached to a wall at one end and a mass of 5.3 kg on the other end. The spring is pulled 0.88 m from equilibrium and released from rest to oscillate frictionlessly with a period of 6.6 s. What is the magnitude of the maximum velocity reached by the mass? 0.84 m/s 36 m/s 0.97 m/s 5.8 m/sA horizontal spring fixed on one end has a spring constant k = 300N/m. A mass of 0.75kg is attached to the other end and the body undergoes simple harmonic motion. During oscillation, the mass reaches an amplitude of 3m. How much potential energy is at the peak of oscillation? (neglect friction) 1.5 kJ 3 kJ O 15 KJ O 30 kJ
- how to do?A spring hangs vertically from a ceiling. The spring constant of the spring is k=15 N/m. A 2kg object has been attached to the spring and the spring has already come to its new equilibrium. Someone pulls the object down by 5cm and releases it at time t = 0s. The spring and object begin to oscillate under simple harmonic motion. Find the total energy of the system, the maximum kinetic energy, the maximum potential energy, and the positions where the maximum energies occur. Answers: 0.01875 J, 0.01875 JAn object weighing 4 kg, one end of which is connected to the other end of a spring connected to the ceiling, makes an oscillating movement in a frictional environment. It is known that the friction force is proportional to the speed of the object and its proportionality coefficient is 5 Ns/m and the spring constant is 0.2 N/m. At t = 0, the object starts to move after being raised 2 m upwards from the equilibrium position, and it is known that it passes 5 m below the equilibrium position at t = 10 s. Write the differential equation that describes the motion of the object and then find the equation that relates the position of the object to time.
- An apple weighs 1.04 NN. When you hang it from the end of a long spring of force constant 1.54 N/mN/m and negligible mass, it bounces up and down in SHM. If you stop the bouncing and let the apple swing from side to side through a small angle, the frequency of this simple pendulum is half the bounce frequency. (Because the angle is small, the back and forth swings do not cause any appreciable change in the length of the spring.) What is the unstretched length of the spring (i.e., without the apple attached)? Express your answer with the appropriate units.A spring with spring constant 15.0 N/m hangs from the ceiling. A ball is suspended from the spring and allowed to come to rest. It is then pulled down 6.00 cm and released. If the ball makes 30 oscillations in 20.0 s, what are its (a) mass and (b) maximum speed?An oscillator is comprised of a 2.0-kg block and a 1200 N/m spring. The block is held at rest 2.5 cm from the equilibrium point and released. Assuming no friction, what is the block's maximum speed? 22 cm/s 61 cm/s 1.8 m/s 40 cm/s 87 cm/s