Pushing.
every action has an opposite or equal reaction meaning i push you thier will be a force acting against me aswell. a rocket flys because it pushes off the repelent which also pushing back on it. an object will remain still till a force is acted upon it. another law states that you need more force to move something with more mass and more force to make it accelerate faster.
in which situation you exert more force downward, standing or lying horizantilly?
Submarine Force
Pulley used for change direction of the force, e.g. pull the weight up is change direction form pulling up to pulling down. Pulley arrangement can use to reduce the load require to lift object, e.g. fix rope to wall and put load hanging on pulley and pull 1 end so the wall support half of the load. See link for more detail.
The quartering act would force colonist to have more expenses since it ensured British troops were given food and shelter.
which requires more energy, pulling a load, lifting, or pushing a load?
It doesn't really matter; it can be either - or even both: one or more forces can be pulling and one or more forces can be pushing. Or a single pulling or pushing force. The point is, to be called "unbalanced", the sum of all forces must NOT be zero.
Electric pumps are more efficient pushing versus pulling and the fuel cools the pump.Electric pumps are more efficient pushing versus pulling and the fuel cools the pump.
If a pulling force is exerted on an elastic band, then the elastic band will stretch. The more force that is exerted, the more the band will stretch.
Pulling it along a surface basically because you don't have to support the weight... In terms of physics lifting the object requires you to counteract the force of gravity while if you push it you just have to overcome friction which is the friction coefficient multiplied by the normal force (which in many cases is the force of gravity)... And since the coefficient is always less than one the force will in all cases be less by sliding it.
it requires more energy to pull because the load is heavier than the effort.
Gravity is the force of attraction between matter. When an object exerts gravitational force on another object, the other object also 'pulls' the first object. These force vectors are equal and opposite. In the example of a person being pulled towards a planet, the planet is also being pulled towards the person with the same force between them. The planet just has a lot more mass and accordingly accelerates a great deal less. There is no force "pulling up", but the strength of your legs are pushing up. (the equal and opposite force required for stability).
Sliding friction requires more force to overcome its friction.
Sliding friction requires more force to overcome its friction.
In most cases, when a body is at rest, there are two forces acting on it: the force of gravity pulling downward and the normal force pushing upward. These forces are equal and opposite, resulting in a balanced or net force of zero.
Pulling a trailer requires more energy than carrying a heavy load.
A large book has more mass, which requires more force to be moved.