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M -/2 points HRW6 8.P.021 In Fig. 8-34, a 12 kg block is released from rest on an incline angled at e 30. Below the blo...
M -/2 points HRW6 8.P.021 In Fig. 8-34, a 12 kg block is released from rest on an incline angled at e 30. Below the block is a spring that can be compressed 2.0 cm by a force of 270 N The block momentarily stops when it compresses the spring by 6.4 cm. 12 kg Figure 8-34 (a) How far has the block moved down the incline to this stopping point? m (b) What is the speed of the block...
Show major steps and formulas involved!!!!!, really need to understand how to get the results, if...
Show major steps and formulas involved!!!!!, really need to
understand how to get the results, if you can draw a picture, I
will appretiate it!!!
89. A 5.00-g bullet mov- AMT ing with an initial M speed of v; = 400 m/s is fired into and passes through a 1.00-kg block as shown in Fig- ure P9.89. The block, initially at rest on a frictionless, horizontal surface, is connected Figure P9.89 to a spring with force constant 900 N/m. The...
In the figure, a block of mass m = 11 kg is released from rest on...
In the figure, a block of mass m = 11 kg is released from rest on a frictionless incline of angle θ = 26°. Below the block is a spring that can be compressed 3.4 cm by a force of 320 N. The block momentarily stops when it compresses the spring by 5.3 cm. (a) How far does the block move down the incline from its rest position to this stopping point? (b) What is the speed of the block...
Show major steps and formulas involved!!!!!, really need to understand how to get the results, if...
Show major steps and formulas involved!!!!!, really need to
understand how to get the results, if you can draw something about
tge picture, I will appretiated!!!!!
80. A small block of mass m = 0.500 kg is released from W rest at the top of a frictionless, curve-shaped wedge of mass m, = 3.00 kg, which sits on a frictionless, hori- zontal surface as shown in Figure P9.80a. When the block leaves the wedge, its velocity is measured to be...
Show major steps and formulas involved, really need to understand how to get the results, if...
Show major steps and formulas involved, really need to
understand how to get the results, if you can show a graph. I will
appretiated!!!!
62 A 5.00 kg stone is rubbed across the horizontal ceiling of a cave passageway (Fig. 6-48). If the coefficient of kinetic friction is 0.65 and the force applied to the stone is angled at @= 70.0°, what must the magnitude of the force be for the stone to move at constant velocity?
1a. 1b. 1c. A single conservative force = (AX - B) N, where x is in...
1a.
1b. 1c.
A single conservative force = (AX - B) N, where x is in meters, and A and B are positive constants, acts on a particle moving along an x axis. The potential energy U associated with this force is assigned a value of 0 at x = 0. (a) Write an expression for the potential energy associated with this force. (b) What is the maximum positive value of the potential energy? In the figure, a block of...
Please show all the steps on how to get the results....!!, really need to understand this...
Please show all the steps on how to get the results....!!,
really need to understand this for a test!!!!, dont skip steps
please, thanks!!!, Do each question separately
3. A 10 kg block is hanging froma solid cylinder of mass 20 kg (R = 3m). The block is attached by a rope that winds around the cylinder and is 4 m above the ground. M2 = 20 kg R 3 m M1 10 kg 4m a. Calculate the acceleration of...
Please show steps and explanation for 1a. and 1b., thanks! #1: A 22-kg block is released...
Please show steps and explanation for 1a.
and 1b., thanks!
#1: A 22-kg block is released from rest on a frictionless surface, a distance of h = 1.4 m above the ground. The block comes to a stop when it has compressed the spring a distance of 2.8 cm. h = 1.4 m a) Find the force constant for the spring. b) Find the speed of the mass when the spring is only compressed 1.4 cm.
I need a step by step on 1 and 2 so I can teach myself. 1....
I need a step by step on 1 and 2 so I can teach myself.
1. A solid, uniform sphere with a mass of 2.0 kg is rolling from rest down an incline plane from the top of the plane. The incline plane makes an angle of 20° with the horizontal and has a height of 2.0 m. At the bottom of the incline plane, the surface levels out to a frictionless horizontal surface. A spring with a spring constant...
PLEASE SHOW ALL WORK! A wooden block with a mass of 250 g rests on a...
PLEASE SHOW ALL WORK! A wooden block with a mass of 250 g rests on a flat wooden table. The block is then pushed against a spring, compressing it. a) If the spring has a spring constant of k = 800. N/m and is compressed a distance of 15.0 cm, what is the energy stored in the spring? b) What is the speed of the block when it leaves the spring? c) The coefficient of kinetic friction of wood on...
M -/2 points HRW6 8.P.021 In Fig. 8-34, a 12 kg block is released from rest on an incline angled at e 30. Below the block is a spring that can be compressed 2.0 cm by a force of 270 N The block momentarily stops when it compresses the spring by 6.4 cm. 12 kg Figure 8-34 (a) How far has the block moved down the incline to this stopping point? m (b) What is the speed of the block...
Show major steps and formulas involved!!!!!, really need to
understand how to get the results, if you can draw a picture, I
will appretiate it!!!
89. A 5.00-g bullet mov- AMT ing with an initial M speed of v; = 400 m/s is fired into and passes through a 1.00-kg block as shown in Fig- ure P9.89. The block, initially at rest on a frictionless, horizontal surface, is connected Figure P9.89 to a spring with force constant 900 N/m. The...
Show major steps and formulas involved!!!!!, really need to
understand how to get the results, if you can draw something about
tge picture, I will appretiated!!!!!
80. A small block of mass m = 0.500 kg is released from W rest at the top of a frictionless, curve-shaped wedge of mass m, = 3.00 kg, which sits on a frictionless, hori- zontal surface as shown in Figure P9.80a. When the block leaves the wedge, its velocity is measured to be...
Show major steps and formulas involved, really need to
understand how to get the results, if you can show a graph. I will
appretiated!!!!
62 A 5.00 kg stone is rubbed across the horizontal ceiling of a cave passageway (Fig. 6-48). If the coefficient of kinetic friction is 0.65 and the force applied to the stone is angled at @= 70.0°, what must the magnitude of the force be for the stone to move at constant velocity?
1a.
1b. 1c.
A single conservative force = (AX - B) N, where x is in meters, and A and B are positive constants, acts on a particle moving along an x axis. The potential energy U associated with this force is assigned a value of 0 at x = 0. (a) Write an expression for the potential energy associated with this force. (b) What is the maximum positive value of the potential energy? In the figure, a block of...
Please show all the steps on how to get the results....!!,
really need to understand this for a test!!!!, dont skip steps
please, thanks!!!, Do each question separately
3. A 10 kg block is hanging froma solid cylinder of mass 20 kg (R = 3m). The block is attached by a rope that winds around the cylinder and is 4 m above the ground. M2 = 20 kg R 3 m M1 10 kg 4m a. Calculate the acceleration of...
Please show steps and explanation for 1a.
and 1b., thanks!
#1: A 22-kg block is released from rest on a frictionless surface, a distance of h = 1.4 m above the ground. The block comes to a stop when it has compressed the spring a distance of 2.8 cm. h = 1.4 m a) Find the force constant for the spring. b) Find the speed of the mass when the spring is only compressed 1.4 cm.
I need a step by step on 1 and 2 so I can teach myself.
1. A solid, uniform sphere with a mass of 2.0 kg is rolling from rest down an incline plane from the top of the plane. The incline plane makes an angle of 20° with the horizontal and has a height of 2.0 m. At the bottom of the incline plane, the surface levels out to a frictionless horizontal surface. A spring with a spring constant...
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