Asked by alex

When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.

I have no idea

When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.
When you think about the conservation of momentum, there is always some force going in both directions. The mass and velocity of the water coming out of the fire-fighter's hose makes the tube want to move backwards, because there is a force pushing the hose in the opposite direction that the water itself is going in. It's the same as the gun and bullet problem. There is a recoil in the other direction in the gun after a bullet is shot because there is a backward force pushing on the gun itself from the forward force of the bullet.

Don't copy me!!!!!