When you push the block of wood underwater, you feel a force on your hand because of buoyancy. The displaced water exerts an upward force on the block of wood, opposing the force you apply to push it down. This results in a feeling of resistance or buoyant force on your hand.
When you push something shut, you are applying a force called compression force. This force is directed towards the object to bring its parts closer together and create a seal or closure.
The force produced when a boxer's hand hits a heavy bag and bounces off of it is called a rebound force. This force is generated by the impact of the hand on the bag, causing it to compress and then push back against the hand as it recoils.
Force can be either a push or a pull. When you push a door open or pull a rope, you are applying a force in that direction.
Yes, the force of a push is in the direction of the push. When you apply a force to an object by pushing it, the force vector is directed along the direction in which you are pushing.
it all depends on how hard you lift of push your hand.
When you push the block of wood underwater, you feel a force on your hand because of buoyancy. The displaced water exerts an upward force on the block of wood, opposing the force you apply to push it down. This results in a feeling of resistance or buoyant force on your hand.
When you push something shut, you are applying a force called compression force. This force is directed towards the object to bring its parts closer together and create a seal or closure.
1. Inertia 2. Friction 3. A force when you move your pen or hand
The force produced when a boxer's hand hits a heavy bag and bounces off of it is called a rebound force. This force is generated by the impact of the hand on the bag, causing it to compress and then push back against the hand as it recoils.
Yes. That kind of quantity is called a "vector".
Force can be either a push or a pull. When you push a door open or pull a rope, you are applying a force in that direction.
Friction
This answer is popstres
Yes, the force of a push is in the direction of the push. When you apply a force to an object by pushing it, the force vector is directed along the direction in which you are pushing.
Force can be both a push or a pull
A force can be either a push or a pull.