The object accelerates in the direction of the resultant force.
i do not know someting about occor
The object will not move
Mass
Yes, frictional forces such as air, tires against the ground, gravity pulling the car down, force of engine moving car forward. The positive force of the engine turning the drive train and the wheels is equaled by the frictional forces; so overall forces balance out.
The opposing force in this situation is gravity pulling the magazine downward.
The opposing force in this situation is gravity pulling the magazine downward.
The hammer or crowbar is applying force to extract the nail, and is opposed by the friction between the board and the outside surface of the nail.
1) There are always frictional forces, which by themselves would slow the car down. 2) Since we are assuming that the car is moving at a uniform speed, there must be another force to compensate for the friction, and in the opposite direction (pulling the car forward). This force is related to the effort done by the engine.
Yes, frictional forces such as air, tires against the ground, gravity pulling the car down, force of engine moving car forward. The positive force of the engine turning the drive train and the wheels is equaled by the frictional forces; so overall forces balance out.
The opposing force in this situation is gravity pulling the magazine downward.
The opposing force in this situation is gravity pulling the magazine downward.
The term 'pulling out' means to move off from a stopped position and join the flow of traffic. This would generally mean moving forward.
The hammer or crowbar is applying force to extract the nail, and is opposed by the friction between the board and the outside surface of the nail.
There should be a hand piece on the sunroof. By pulling the handle and pulling forward this will close the sunroof.
When a tractor is pulling a sled there is the mass and gravity of both the tractor and sled slowing it down. There is also tension in the rope pulling the sled. whenever physics is involved to solve a force there is usually a frictional force acting on the objects. The formula to use is F=ma. The total mass is the mass of the objects put together and the total force is the force that the tractor is pulling at minus mg (mass x gravity) and minus the frictional force. The tension (T) is calculated using the formula T=W+ma (W=mgh), using only the mass of the sled.
thrust is the force pushing the plane forward (or pulling in some cases)
Inflamation if it is not a sprain.
1) There are always frictional forces, which by themselves would slow the car down. 2) Since we are assuming that the car is moving at a uniform speed, there must be another force to compensate for the friction, and in the opposite direction (pulling the car forward). This force is related to the effort done by the engine.
The satellite is being pulled by the earths gravity all of the time, but the satellite also has an orbital velocity, meaning that is is travelling at high speed. These two opposing forces balance out, the 'sideways' speed of the satellite wants to take it away into space, but the gravity of the earth is always pulling it in. The satellite maintains its speed as there there are no frictional forces to slow it down in space, so it maintains an orbit.
Only if it is moving forward and tide to the truck. Whether or not it is legal is another question. Pulling another vehicle is illegal in most states.