LLLLLLLLLLLLLLLLLLLLL A body of mass m sits on a balance of mass M, which hangs from an ideal spring with spring consta...
A 5 kg block hangs from a spring with spring constant 5 N/m. At t=0s the block is 3 m below the equilibrium point and moving upward with a speed of 6 m/s. What is the amplitude of the oscillations?
An ideal mass m is sitting on a plane,attached to a rigid surface via a spring. The spring constant is k, damping coefficient is c, and r(t) is the displacement of the mass with respect to the equilibrium position at time t. damper r 丑 spring Whent 0, we start to measure this of mass v(0)0 system and displacement o )1, velocity a) How many times will the mass pass through the equilibrium position in one b) Please find the...
An ideal spring hangs from the ceiling. A 1.25 kg mass is hung from the spring, stretching the spring a distance d = 0.0865 m from its original length when it reaches equilibrium. The mass is then lifted up a distance L = 0.0285 m from the equilibrium position and released. What is the kinetic energy of the mass at the instant it passes back through the equilibrium position?
An ideal spring hangs from the ceiling. A 1.45 kg mass is hung from the spring, stretching the spring a distance d = 0.0865 m from its original length when it reaches equilibrium. The mass is then lifted up a distance L = 0.0275 m from the equilibrium position and released. What is the kinetic energy of the mass at the instant it passes back through the equilibrium position?
An ideal spring hangs from the ceiling. A 1.45 kg mass is hung from the spring, stretching the spring a distance d 0.0845 m from its original length when it reaches equilibrium. The mass is then lifted up a distance L-0.0295 m from the equilibrium position and released. What is the kinetic energy of the mass at the instant it passes back through the equilibrium position? kinetic energy Equilibrium position
An ideal spring hangs from the ceiling. A 1.85 kg mass is hung from the spring, stretching the spring a distance d = 0.0905 m from its original length when it reaches equilibrium. The mass is then lifted up a distance 0.0265 m from the equilibrium position and released. What is the kinetic energy of the mass at the instant it passes back through the equilibrium position? d kinetic energy J Equilibrium position
An ideal spring hangs from the ceiling. A 2.15 kg mass is hung from the spring, stretching the spring a distance d = 0.0865 m from its original length when it reaches equilibrium. The mass is then lifted up a distance L = 0.0235 m from the equilibrium position and released. What is the kinetic energy of the mass at the instant it passes back through the equilibrium position?
A body of mass m = 3.00 kg is attached to a horizontal spring with force constant k = 100 N/m. The body is displaced 10.0 cm from its equilibrium position and released. For the resulting simple harmonic motion, find The amplitude
A body with mass of 200 g is attached to the end of a spring that is stretched 20 cm by a force of 9 N. At time t=0 the body is pulled 1 m to the left, stretching the spring, and set in motion with an initial velocity of 8 m/s to the left. (a) Find x(t) in the form C cos (@ot-a). (b) Find the amplitude and the period of motion of the body.
A body of unknown mass is attached to an ideal spring with force constant 119 N/m . It is found to vibrate with a frequency of 6.35 Hz. Find the period. Find the angular frequency. Find the mass of the body.