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What is a probe weight on earth if the probe has a mass of 100 kg?
On earth, 100 kg of mass weighs 980 newtons (220.46 pounds).
How much does it weigh in kilograms if it weighs 980 tons?
1 ton=1000kg, so 980 tons=980,000 kg.
How much does a 10kg bag of sand weigh?
On earth, 10 kg of mass weighs 980 Newtons (22.05 pounds), regardless of what kind of object it is, or what's in the bag.
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.
Carlton has a mass of 100 kg What is his weight?
980 N
What is lightest Cessna weight?
I believe that would be the Cessna 150 which weighs in about 980 pounds
If a ship weighs 980 tons how many kilograms does the ship weigh?
The weight of the ship is 980 tons. To convert tons to kilograms, you multiply by 1000, as there are 1000 kilograms in 1 ton. Therefore, the ship weighs 980,000 kilograms.
What is 980 plus 980 plus 980 plus 980 plus 980 plus 980 plus 980?
980 + 980 + 980 + 980 + 980 + 980 + 980 = 6860
What is the mass of a 980 newton boulder?
To find the mass of the boulder, you would need to divide the force (in newtons) by the acceleration due to gravity, which is approximately 9.81 m/s^2. Therefore, the mass of a 980 newton boulder would be about 100 kg.
What is the mass of an object with a potential energy of 980 J and a height of 5 meters?
To find the mass of the object, we first need to determine the gravitational potential energy formula, which is PE = mgh (mass x gravity x height). Given the potential energy (PE) as 980 J and height (h) as 5 meters, solve for mass (m) using the formula. The mass of the object would be 40 kg.
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
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
