it will slow the car down
Gravitational force is not something that changes, it is a constant. The Earth's gravitational force is roughly 9.8 meters per second squared.
airbus
If there are unbalanced forces acting on an object with the bigger force in the opposite direction to its movement, the object will slow down or decelerate. The net force will oppose the object's motion, causing it to eventually come to a stop or change its direction.
When one force is greater than another, the larger force will dominate, leading to a net force that determines the direction of motion. This can cause an object to accelerate in the direction of the larger force. If the forces act on a stationary object, the object will start to move in the direction of the stronger force. If the forces are acting on an object already in motion, the object's velocity will change according to the net force.
force that can do an object in physics is greater than bigger no in zero to smallest number in one
The object will move faster
When the force applied to a given area increases, the pressure also increases. This relationship is described by the equation pressure = force/area, so if force increases and area remains constant, pressure will increase.
force
Nothing, this is normal.
It depends on the working principle of the machine. Like for example in a gear mechanism if you replace the bigger gear with an even bigger one then a smaller amount of force would rotate the smaller gear in the same angular velocity as the initial gear did but with a greater force. But now if you increases the force in the bigger gear the smaller gear would tend to rotate more fast.
It depends on the working principle of the machine. Like for example in a gear mechanism if you replace the bigger gear with an even bigger one then a smaller amount of force would rotate the smaller gear in the same angular velocity as the initial gear did but with a greater force. But now if you increases the force in the bigger gear the smaller gear would tend to rotate more fast.
nothing. the two forces cancel each other out.