Want this question answered?
Force = mass x acceleration Force = Akg x 2m/s^2 Unit for force here is in Newtons (N)
weight = Force of gravity Force= Mass x acceleration so Force of gravity = Mass x -9.81 that's -9.81 is acceleration in relation to the force on earth. and its negative because gravity pulls things down in a negative direction towards earth. mass= weight in kg acceleration= -9.81 m/s^2 on earth force = is how much gravity pulls on the object and its in Newton's. how this is what you wanted
If we have a force acting on a body and we know what that force is, and we also know that the force is gravity, we can solve because we know the force gravity exerts on a mass. If we take the total force acting on the body and divide it by the force of gravity per one unit of mass, we can find the number of units of mass that cause gravity to act on the object. We have 1033 Newtons of force acting on the object. Gravity pulls down with a force of 9.8 Newtons on 1 kilogram of mass. Our 1033 Newtons divided by 9.8 Newtons per kilogram = 105.41 kilograms
The force depends on the mass of the object. That's why tall fat people weigh more than short skinny people. Whatever the mass of the object happens to be, the forces of gravity between the Earth and the object are 9.8 newtons (about 2.205 pounds) per kilogram of mass, in both directions.
1kg of mass = 9.81 newtons 1kg = 9.81 newtons 1 newton = 0.101971621 kilogram-force 1 kilogram-force = 9.80665 newton Newton is not a unit of mass like the kilogram, it is a measure of force. A Newton is the amount of force that it takes to accelerate a mass at a rate of 1ms-2 The Earths gravity typically pulls 1kg. with a force of about 9.81N (N=Newton) but it varies a little depending where you are on Earth. So on Earth 0.102 Kg or 102 grams is one whole Newton
Gravity
If the speed of sliding along the table is constant, then there's no acceleration, and the 'net' force on the mass and anywhere along the connection to the scale is zero. At the point where the hook of the scale engages the mass, there is no acceleration. The mass is pulling the hook backwards with a force of 20 newtons, and somebody's finger is pulling the spring scale forward with a force of 20 newtons. The mass or weight of the object sliding along on the table is irrelevant.
Two newtons is the puppy is just standing there. If the force were more, the puppy would be jumping into the air.
1kg of mass = 9.81 newtons 1kg = 9.81 newtons 1 newton = 0.101971621 kilogram-force 1 kilogram-force = 9.80665 newton Newton is not a unit of mass like the kilogram, it is a measure of force. A Newton is the amount of force that it takes to accelerate a mass at a rate of 1ms-2 The Earths gravity typically pulls 1kg. with a force of about 9.81N (N=Newton) but it varies a little depending where you are on Earth. So on Earth 0.102 Kg or 102 grams is one whole Newton
the force of the airplane is directly related to the force of 10000 newtons therfore using the formula of p=1/2q3(6k) we can easily figure out that the force of the airplane is 1000/10 which is 100.
The Earth pulls on the Moon, and the Moon pulls on the Earth. The Sun pulls on the Moon, and the Moon pulls on the Sun. Mars pulls on the Moon (ever so slightly) and the Moon pulls on Mars. Your body pulls on the Moon (hardly measurable, but it does) and the Moon pulls on your body. The Moon and Sun and Earth's gravity pull (and push) Earth's oceans, and the ocean "tides" are the results.
The force F= GmM/r^2.Newtons or N. for short