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What is the measure of the force of gravity in newtons?
980 newton
How does mass affect the weight of somebodies weight on other planets?
The formula is:weight = mass x gravity.On Earth, "gravity" is about 9.8 meters/second2, equivalent to 9.8 newton/kilogram. That means that each kilogram has a weight of 9.8 newton. On other planets, the "gravity" part will be different. For example, on Mars, the gravity is about 3.7 newton/kilogram. Thus, a man with a mass of 100 kilogram (that's well above the average, but simplifies calculations...) would weigh about 980 newton on Earth, and about 370 newton on Mars.
Does a boulder rolling down a hill have momentum?
Yes, a boulder rolling down a hill has mass and velocity. Therefore, it has momentum because p = mv (momentum = mass x velocity).
How many newtons are in 100 pounds?
"Newton" is a unit of force. "Kg" is a unit of mass. They're used to describe themeasurements of completely different types of quantities, so they don't directlyconvert.100 kg of mass, on earth, weighs about 980 newtons. In other places, its weightis different.980.7 N
Is mass a measure of force of gravity acting on the object?
No. Mass is a characteristic that exerts a force of gravity on another mass. The measure of force is the Newton. The Newton uses mass as part of the factors that go into the calculation.
How much mass does a 980 newton weight have?
It depends on where the body was weighed. If on the surface of the earth, where the acceleration due to gravity is 9.8 ms-2, the mass would be weight/g = 980 N / 9.8 ms-2 = 100 kilograms
Weight and mass on other planets?
If you go to another planet, your mass will basically remain the same, but your weight will change, depending on the gravity.For example, if you have a mass of 100 kg. (that's overweight, but it simplifies calculations!), on Earth you would weigh 980 Newton. On the Moon, with less gravity, you would weigh about 160 Newton - but your mass would still be 100 kg.
What is the measure of the force of gravity in newtons?
980 newton
How does mass affect the weight of somebodies weight on other planets?
The formula is:weight = mass x gravity.On Earth, "gravity" is about 9.8 meters/second2, equivalent to 9.8 newton/kilogram. That means that each kilogram has a weight of 9.8 newton. On other planets, the "gravity" part will be different. For example, on Mars, the gravity is about 3.7 newton/kilogram. Thus, a man with a mass of 100 kilogram (that's well above the average, but simplifies calculations...) would weigh about 980 newton on Earth, and about 370 newton on Mars.
What does weigh refer to?
Weight is the force with which gravity attracts an object. It can be calculated as weight = mass x gravity; for example, a person with a mass of 100 kg., on Earth (gravity = 9.8 meter per second square), weighs 980 Newton.
Gravity exists between everything with mass If this is the case why do you not notice the gravity between you and a bowl of soup?
The masses involved are insignificant. You need a much larger mass for the force to be noticeable (without special equipment).In SI units, the gravitational constant, G, is 6.67 x 10-11 m3kg-1s-2. That means that a man with a mass of 100 kg., and a bowl of soup with a mass of 1 kg., at a distance of 1 meter, will attract each other with a force of 6.67 x 10-9 Newton, which can also be written as 0.00000000667 Newton. For comparison, the bowl of soup weighs 9.8 Newton, and the man weighs 980 NewtonThe masses involved are insignificant. You need a much larger mass for the force to be noticeable (without special equipment).In SI units, the gravitational constant, G, is 6.67 x 10-11 m3kg-1s-2. That means that a man with a mass of 100 kg., and a bowl of soup with a mass of 1 kg., at a distance of 1 meter, will attract each other with a force of 6.67 x 10-9 Newton, which can also be written as 0.00000000667 Newton. For comparison, the bowl of soup weighs 9.8 Newton, and the man weighs 980 NewtonThe masses involved are insignificant. You need a much larger mass for the force to be noticeable (without special equipment).In SI units, the gravitational constant, G, is 6.67 x 10-11 m3kg-1s-2. That means that a man with a mass of 100 kg., and a bowl of soup with a mass of 1 kg., at a distance of 1 meter, will attract each other with a force of 6.67 x 10-9 Newton, which can also be written as 0.00000000667 Newton. For comparison, the bowl of soup weighs 9.8 Newton, and the man weighs 980 NewtonThe masses involved are insignificant. You need a much larger mass for the force to be noticeable (without special equipment).In SI units, the gravitational constant, G, is 6.67 x 10-11 m3kg-1s-2. That means that a man with a mass of 100 kg., and a bowl of soup with a mass of 1 kg., at a distance of 1 meter, will attract each other with a force of 6.67 x 10-9 Newton, which can also be written as 0.00000000667 Newton. For comparison, the bowl of soup weighs 9.8 Newton, and the man weighs 980 Newton
What are the ratings and certificates for Boulder Mass 'The Levitation' - 2013?
Boulder Mass 'The Levitation' - 2013 is rated/received certificates of: USA:Approved
Carlton has a mass of 100 kg What is his weight?
980 N
What is the mass of an object with a potential energy of 980 J and a height of 5 meters?
PE=mgh 980=mx9.81x5 m=20kg
What is a large tall mass of rocks?
a boulder
Super throws a 2400-N boulder at an adversary what horizontal force must Superman apply to the boulder to give it a horizontal acceleration of 12.0 ms2?
According to Newton's second law of motion force is equivalent to mass times acceleration: F = m * a In this case: Assuming no mistake with the units, the mass of boulder is given as a force the gravity applies on it(weight). If it is Earth's gravitational field, the mass is: m = 2400 N / g = 244.65 kg. Force will be then: F = 244.65 * 12 = 2935.78 N
What are the release dates for Boulder Mass 'The Levitation' - 2013?
Boulder Mass 'The Levitation' - 2013 was released on: USA: 1 June 2013 (Los Angeles, California)
