50 pounds-force = 222.26 newtons (rounded)
A mass of 50.0 kilograms weighs 490 newtons on earth.
The force of gravity exerted on a 35kg mass is approximately
9.8
50
Our legs can support the force that gravity causes our bodies to exert.
Well, according to Newton's third law, every action has an equal and opposite reaction, so the ground would exert 3000 Newtons back on the moose.
Gravity exerts an acceleration a= GM/r2 = v2/r.
At the top of the rocket's trajectory it is motionless for a brief time and the only force acting on it is that of gravity; the rocket motor has long since spent its energy.
the concept's application here is very simple. As we walk we exert a certain amount of force on the Earth and governed by the 3rd law the Earth exerts the equal amount of force back on our foot (opposite direction) but as the Earth is very massive to observe the push that we exert only the force the it exerts it felt this added to friction provides the stability of the feet while in movement
Our legs can support the force that gravity causes our bodies to exert.
This depends on the weight of the rocket, weight being the mass of the rocket multiplied by earth's gravitational pull. To take off, the rocket needs to exert force larger than the weight, and for a sufficient amount of time to break out of orbit. For instance, if the rocket had a mass of 1kg, it'd exert (1 * 9.8), or 9.8 Newtons of force towards to ground via it's weight (9.8 being the acceleration towards the ground due to gravity). This means that to start to accelerate away from the ground, the rocket would need to exert force higher than 9.8 Newtons. If your hypothetical rocket has a mass of x kg, then it will need to exert a force greater than 9.8x newtons, ignoring air resistance and decaying of the gravitational field.
A minimum of 1.667 newtons.
That would be "Gravity".
zero
Please multiply the mass by the gravity. On Earth, the gravity is approximately 9.8 newton/kilogram (= 9.8 meters/second2).
It shows that everything that happens will a reaction of equal force in the other direction. for example when you exert 20 pounds of pressure on the ground the ground will puch 20 of pressure back.
Well, according to Newton's third law, every action has an equal and opposite reaction, so the ground would exert 3000 Newtons back on the moose.
Gravity exerts an acceleration a= GM/r2 = v2/r.
At the top of the rocket's trajectory it is motionless for a brief time and the only force acting on it is that of gravity; the rocket motor has long since spent its energy.
Gravity.
Something with a mass of 400g would exert a force of 3.9228 newtons.