A pedulum with a mass of 0.5 kg raised to a height 0f
8cm ( Point A) start swinging at which point? potential energy
maximum or minimum? kinetic energy at maximum or minimum?
And calculate potential energy ay point A
and velocity at point B
A pedulum with a mass of 0.5 kg raised to a height 0f 8cm ( Point...
7 A ball has a mass of 0.5 kg. Dropped from a cliff top, the all strikes the sea below at a velocity of 10 m/s. /s. a) What is the kinetic energy of the ball as it is about to b) What was its potential energy before it was c) From what height was the ball dropped? strike the sea? dropped? Repeat stages a, b, and c above to find the height t is a d) A stone of...
A car of mass 500. kg on a roller coaster ride is raised from
the ground (horizontal dotted line) to point A as shown in the
diagram above. When the car passes point A, its speed is 5.0 m/s,
and then it rolls freely through the rest of the ride with
negligible friction, passing points B, C, D and E. Note that point
D is the highest portion of a circular loop, and point E is the
lowest portion of...
2 Ski jumping A ski jumper of mass 70 kg is attempting to launch off the ramp below with a velocity of v=90km/h that points horizontally. This corresponds to v=25m Height - - - - - - - - - - - - - - - - - - - (a) (5 pts) Calculate the kinetic energy the ski jumper would have at the moment they launch off the ramp. (b) (10 pts) Ignoring friction and air resistance, you can...
M 7 A mass M = 1.2 kg is released from rest. From the initial height of 75 cm above the ground, the mass drops from an free spring (neither compressed, nor extended) of constant k = 590 N/m The maximum compression of the spring, due to the impact of the dropping mass is sh = 160 mm. Analyse the system with respect to the balance of energy, and the apply the conservation of energy, considering the ground level as...
A 1-kg pellet travels with velocity 160 m/s to the right when it collides with a 39-kg hanging mass which is initially at rest. After the collision, the pellet remains lodged in the hanging mass, i.e., it is a completely inelastic collision. The hanging mass (+pellet) then swings upward and reaches a maximum height hmax before swinging downward again. Assume that no external forces are present and therefore the momentum of the system is conserved. What is the velocity vf...
A track consists of a frictionless incline plane, which is a height of 0.5 m, and a rough horizontal section with a coefficient of kinetic friction 0.02. Block A, whose mass is1.5 kg, is released from the top of the incline plane, slides down and collides instantaneously and inelastically with iden tical block B at the lowest point. The two blocks move to the right through the rough section of the track until they stop. Determine the initial potential energy...
Question 1 (1 point) D ha A ั Match the marked point on the plot to the appropriate description. Some of the choices have only one match, and so make sure to match these first. Minimum potential energy 1. A เค Minimum kinetic energy < 2. B Maximum positive acceleration 3. C 4. D V Maximum positive velocity Question 2 (1 point) Oscillator Energies 50 40 30 Energy (J) 20 LO 0.2 0.4 0.8 1.2 0.6 Time [sec] A damped...
a block with a mass of 2.5 kg starts from rest at the top of the
apparatus shown below. it then slides without friction down the
incline, and collides with a spring attached to a wall. The spring
has a spring constant of K=120N/m. Using the principle of energy
conservation,
a. find the initial gravitational potential energy of the block
at point A
b. find the kinetic energy of the block at point B
c. what is the velocity of...
A basketball has a mass of 0.62 kg. When dropped from a height of 3.5 m, it hits the ground with a speed of 7.3 m/s. Calculate (a) the ball's initial potential energy and (b) its final kinetic energy. If your answers to parts (a) and (b) are different, explain why.
M A mass M-1.2 kg is released from rest. From the initial height of 75 cm above the ground, the mass drops from an free spring (neither compressed, nor extended) of constant k = 590 N/m. The maximum compression of the spring, due to the impact of the dropping mass is sh = 160 mm. Analyse the system with respect to the balance of energy, and the apply the conservation of energy, considering the ground level as reference of the...