An object that weighs 100 newtons on or near the Earth's surface
has about 10.197 kilograms of mass.
It doesn't matter whether it's moving or at rest, or what its speed is.
Its motion has no effect on its mass or weight.
100 N is a force. An object of mass about 10.2Kg would experience a gravitational force of 100N.
On an electronic weighing scale or just any weighing scale. Place an object (may be an eraser). In order for the mass to disappear, the weight should come to zero. Remove the eraser form the weighing scale. From this experiment you can see that for there to be no mass there is to be no object too. If you're also talking about the mass of air, then there would be no gravitational force between the two objects.
The object's mass and speed.
An object with a large mass is harder to get moving and harder to stop than an object with less mass. I hope this helps
The momentum of an object is the product of the object's mass and velocity. This is essentially a measure of how hard it is to stop an object.
2000k
100 N is a force. An object of mass about 10.2Kg would experience a gravitational force of 100N.
The weight is the mass multiplied by the acceleration of gravity. When weighing an object by a balance the acceleration of gravity is on both sides of weighing and hence canceling its effect and hence you get the object mass (not the weight)..
False
0.1 kg
The weight is the mass multiplied by the acceleration of gravity. When weighing an object by a balance the acceleration of gravity is on both sides of weighing and hence canceling its effect and hence you get the object mass (not the weight)..
The device used for comparing the mass of an object to a known mass is a double pan balance, or a balance scale. This is a type of weighing scale where you put weights on one pan and the substance you are weighing on the other.
by size,volume and gravity
You compare its mass with something of known mass. In everyday earthbound conditions, this would mean weighing it on a set of weighing scales or on a spring balance.
Momentum
net force=mass x acceleration => mass=net force/ acceleration mass= 100/ (5/2) => mass=40
The distance doesn't depend on the mass.