W = mg, where m is mass in kg and g is acceleration due to gravity, 9.8m/s2.
W = 35kg x 9.8m/s2 = 343N
w=mg m= mass g= acceleration due to gravity (9.8m/s^2) w=35kg x 9.8m/s^2 w= 343N
Weight is the measurement of gravitational force on an object, relevant to Earth.
The concept of the weight of the earth makes no sense. The weight of an object on earth is the force of the earth's gravity acting on that object's mass. The earth's gravity does not exert a force on itself. The earth does not have a weight in the context of the sun because it is in free-fall in its orbit around the sun. The mass of the earth is 5.97*1024 kilograms.
The object's mass is the same wherever it is. Mass doesn't change. What changes is the object's weight.The weight depends on what other mass happens to be nearby.When you know the object's weight on earth, multiply that by 0.1633 to find its weight on the moon.If you don't need it that close, it might be easier to just divide the earth weight by 6.
Your mass is always the same.
35kg on earth is 343 newtons or 77.2 lbs.
w=mg m= mass g= acceleration due to gravity (9.8m/s^2) w=35kg x 9.8m/s^2 w= 343N
35kg
35kg
35kg 575gm
The weight of any object on the Moon is about 1/6 of the weight of the same object on the Earth.
This object has a weight on Earth of 67.5 pounds.
On the Earth, the object weighs 6.04 times as much as its weight on the moon.
The force of gravity between the Earth and an object on its surface is what we call the object's "weight". What is not generally appreciated is that the object attracts the Earth toward it with the same force. This means that whatever your weight is on Earth, it's the same as the Earth's weight on you.
The weight of an object on the moon's surface is 16.3% of the same object's weight on the earth's surface.
Weight is the measure of the earth's pull of an object.
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