While on the earth, any object with a mass of 0.77 kg weighs 7.546 newtons (1.698 pounds).
On the moon, the same 0.77-kg object would weigh 1.232 newtons (0.277 pound).
The weight of a ball depends on its mass.
No, look at a the the size of a beachball and the size of a Bowling ball. Answer2: Yes. The weight of an object is dependent on mass. Weight = mass times gravity acceleration g, W = mg.
A digital weighing machine may be usable to measuring the mass of 98 gr. ball. When you drop the ball from 12 meter height to on the surface of the normal digital weighing machine, then machine showing ball weight first second more than 98 gr. and there after machine come to normal stage and showing ball weight exact 98 gr. If we how fast beet the ball to digital weighing machine of top surface, then ball’s mass increases and showing more and more weight at first second the mass of the ball.
Mass and Weight The gravitational force Earth exerts on an object is the weight of the object. Because weight is a force, it is measured in newtons. Weight is not the same as mass. Mass is the amount of matter an object contains, and is measured in kilograms. Even if the mass of an object doesn't change, its weight will change if its distance from Earth changes
There are bowling balls with different masses. In general, if you weigh one of them, its mass is 1 pound-mass for each pound of weight on earth, or 1 kilogram for each 2.205 pounds of weight on earth. -- 6-lb ball . . . 6 pound-mass / 2.722 kilograms -- 12-lb ball . . . 12 pound-mass / 5.443 kilograms -- 14-lb ball . . . 14 pound-mass / 6.350 kilograms -- 15-lb ball . . . 15 pound-mass / 6.804 kilograms -- 16-lb ball . . . 16 pound-mass / 7.257 kilograms (all metric masses are rounded numbers)
The weight of a ball depends on its mass.
all i know is that it is 45-50 grams in weight. not mass
It doesn't. A tennis ball has a mass of about 57g A golf ball has a mass of about 46g The golf ball is DENSER because it has material inside it (usually rubber) but the tennis ball is full of a gas (air).
No, look at a the the size of a beachball and the size of a Bowling ball. Answer2: Yes. The weight of an object is dependent on mass. Weight = mass times gravity acceleration g, W = mg.
A digital weighing machine may be usable to measuring the mass of 98 gr. ball. When you drop the ball from 12 meter height to on the surface of the normal digital weighing machine, then machine showing ball weight first second more than 98 gr. and there after machine come to normal stage and showing ball weight exact 98 gr. If we how fast beet the ball to digital weighing machine of top surface, then ball’s mass increases and showing more and more weight at first second the mass of the ball.
It is approx 4.9 Newtons.
Mass and Weight The gravitational force Earth exerts on an object is the weight of the object. Because weight is a force, it is measured in newtons. Weight is not the same as mass. Mass is the amount of matter an object contains, and is measured in kilograms. Even if the mass of an object doesn't change, its weight will change if its distance from Earth changes
The mass of any object is its attraction by gravity. If the ball is attracted by gravity, and the attraction is measured by scales, we might say that the ball has a weight of five kilograms, or a mass of five kilograms. We can put it another way by saying that mass is the property of a body that causes it to have weight in a gravitational field.
No. Mass is constant - only the weight would be affected because weight = mass x acceleration...lower gravity on the moon means less acceleration. Mass is constant!
There are bowling balls with different masses. In general, if you weigh one of them, its mass is 1 pound-mass for each pound of weight on earth, or 1 kilogram for each 2.205 pounds of weight on earth. -- 6-lb ball . . . 6 pound-mass / 2.722 kilograms -- 12-lb ball . . . 12 pound-mass / 5.443 kilograms -- 14-lb ball . . . 14 pound-mass / 6.350 kilograms -- 15-lb ball . . . 15 pound-mass / 6.804 kilograms -- 16-lb ball . . . 16 pound-mass / 7.257 kilograms (all metric masses are rounded numbers)
No the mass, and therefore weight, are not greatly relevant. What matters is the elasticity.
air has mass, so yes.