A block of mass m is immersed in 2 different liquids of densities ρ1 and ρ2....

Two blocks are completely submerged in water. Both blocks have the same mass, but different densities.  ...

Two blocks are completely submerged in water. Both blocks have the same mass, but different densities.   The volume of Block 1 is 0.810 . The volume of Block 2 is 0.340 . The mass of Block 1 is 460.0 kg. What is the acceleration of Block 2 just after it is released? [Where up is positive.]

Block 1 of mass m is on top of block 2 of mass 5m as shown...

Block 1 of mass m is on top of block 2 of mass 5m as shown in the figure. Block 2 is on a horizontal smooth plane, and a rope can pull horizontally on block 2. The static and kinetic friction coefficients between the surfaces of the two blocks are 5/8 and 1/2 respectively. What is the resulting acceleration of block 2 if a force F=4mg with g being the acceleration of gravity is applied to the rope? Basically the...

A bullet of mass m is fired into a block of mass M that is at...

A bullet of mass m is fired into a block of mass M that is at rest. The block, with the bullet embedded, slides distance d across a horizontal surface. The coefficient of kinetic friction is μk​ A) What is the speed of a 12 g bullet that, when fired into a 9.0 kg stationary wood block, causes the block to slide 5.6 cm across a wood table? Assume that μk=0.20 Express your answer to two significant figures and include...

A copper block of mass 17.5 kg initially at 481 K is immersed in 31.5 kg...

A copper block of mass 17.5 kg initially at 481 K is immersed in 31.5 kg of water initially at 298 K. CP,m(H2O,l)=75.3J⋅K−1⋅mol−1 CP,m(Cu,s)=24.4J⋅K−1⋅mol−1 Assume that the heat capacity of Cu remains constant at its 298.15 K value over the temperature interval of interest. 1) Calculate ΔS for the water. 2) Calculate ΔS for the Cu block.

A cylindrical block of mass M=50kg and height h=0.2m is hanging on a rope and is...

A cylindrical block of mass M=50kg and height h=0.2m is hanging on a rope and is in equilibrium. Any difference in atmospheric pressure along the height of the block is negligible. What is the tension of the rope in N? For gravity use approximate round value g = 10 m/s² 1) 500 The cylindrical block of mass M=50kg and height h=0.2m is hanging on a rope and is in equilibrium. The cylindrical block is fully immersed in water with density...

A small bullet of mass m=0.27g and speed v=13m/s embeds in a block of mass M=0.98kg...

A small bullet of mass m=0.27g and speed v=13m/s embeds in a block of mass M=0.98kg suspended by a massless string of length L, after a collision as shown in the figure. If the bullet will appear on the other side of the block M with a speed v'=3.6m/s, instead of being embedded in it, find the maximum height the block M can reach. (Take g=9.81 m/s2). Express your answer using two decimal places.

A small bullet of mass m=0.73g and speed v=13.5m/s embeds in a block of mass M=0.69kg...

A small bullet of mass m=0.73g and speed v=13.5m/s embeds in a block of mass M=0.69kg suspended by a massless string of length L, after a collision as shown in the figure. If the bullet will appear on the other side of the block M with a speed v'=5.6m/s, instead of being embedded in it, find the maximum height the block Mcan reach. (Take g=9.81 m/s2). Express your answer using two decimal places.

bullet of mass m=14 gr is fired into a block of mass M=2 kg initially at...

bullet of mass m=14 gr is fired into a block of mass M=2 kg initially at rest at the edge of a frictionless table of height h=1.10 m. The bullet remains in the block and the block lands a distance d=0.66 m from the bottom of the table. a)Determine the initial velocity of the bullet. vi=  m/s b) Determine the loss of kinetic Energy during the collision. ΔK =  J

4.) A cart with mass m = 1:2 kg touches a block with mass M =...

4.) A cart with mass m = 1:2 kg touches a block with mass M = 7:3 kg. Both blocks sit on a horizontal surface; the wheel of the cart eliminates the friction with the surface; the coecient of kinetic friction between the block M and the surface is not known. The box and cart are initially at rest. a) We exert a horizontal push P = 63:3N and move the block-cart system through the distance s = 0:87 m....

A metal block of mass m slides on a horizontal surface that has been lubricated with...

A metal block of mass m slides on a horizontal surface that has been lubricated with a heavy oil such that the block su?ers a viscous resistance that varies as the three-halves power of the speed, that is, F(v) = −cv3/2. If the block is given an initial speed v0, calculate (a) the velocity as a function of time v(t) and (b) the velocity as a function of position. (c) Use these results to show that the block cannot travel...