No. Fluids with higher density produce higher buoyant force.
The amount of force you exert remains the same, but the distance over which you exert the force can affect the work done. If you exert a force over a longer distance, you may do more work because the force acts over a greater distance. If the distance over which you exert the force is shorter, the work done may be less.
Charged particles exert an electric force on other charged particles in their vicinity. This force can either be attractive (between particles of opposite charge) or repulsive (between particles of the same charge).
If both teams exert the same force in a game of tug of war, the rope will remain stationary and there will be no movement from either side. The game will be at a standstill until one team either increases their force or one team decreases their force.
According to Newton's third law of motion, when you exert a force on an object, the object exerts an equal and opposite force back on you. This means that for every action, there is an equal and opposite reaction.
Liquids exert pressure in all directions because the particles in a liquid are in constant motion and collide with the walls of the container as well as with each other. This creates a force that is evenly distributed in all directions, leading to pressure being exerted uniformly throughout the liquid. This can be demonstrated by observing that liquid levels are the same at all points within a closed container.
It doesn't. Assuming the volumes are the same, the buyant force will also be the same.
The amount of force you exert remains the same, but the distance over which you exert the force can affect the work done. If you exert a force over a longer distance, you may do more work because the force acts over a greater distance. If the distance over which you exert the force is shorter, the work done may be less.
Charged particles exert an electric force on other charged particles in their vicinity. This force can either be attractive (between particles of opposite charge) or repulsive (between particles of the same charge).
175N
If both teams exert the same force in a game of tug of war, the rope will remain stationary and there will be no movement from either side. The game will be at a standstill until one team either increases their force or one team decreases their force.
According to Newton's third law of motion, when you exert a force on an object, the object exerts an equal and opposite force back on you. This means that for every action, there is an equal and opposite reaction.
Liquids exert pressure in all directions because the particles in a liquid are in constant motion and collide with the walls of the container as well as with each other. This creates a force that is evenly distributed in all directions, leading to pressure being exerted uniformly throughout the liquid. This can be demonstrated by observing that liquid levels are the same at all points within a closed container.
No, light is not a force. Light is a form of electromagnetic radiation that travels in waves and does not exert a force on objects in the same way that gravity or electromagnetic forces do.
In orbit, you would not exert any force on a scale since you are in free fall. This is because both you and the scale would be experiencing the same gravitational force, causing you to float weightlessly.
their magnitudes are added together, resulting in a stronger force
According to Newton's third law of motion, for every action, there is an equal and opposite reaction. So, when you exert a force on an object, the object exerts an equal and opposite force back on you.
Simple answer: yes In order for you to stand, talk, move... ect objects must exert a force on you. For example if you are standing on the ground, the ground has to be pushing back at you, or you would just fall through. If an object doesn't exert the same force you exert on it, then you are moving the object.