The gravitational force of the earth is 6 times more than of the moon or the gravitational force of the moon is 1 sixth than the gravitational force of the earth. EG: A boy weighing 30 kgs on the Earth would be 5 kgs on the moon.
On the Moon, you'd weigh 15.47 pounds.
The direct variation formula for weight on Earth compared to weight on the Moon can be expressed as ( W_m = \frac{1}{6} W_e ), where ( W_m ) is the weight on the Moon and ( W_e ) is the weight on Earth. This indicates that an object's weight on the Moon is one-sixth of its weight on Earth due to the difference in gravitational force. Consequently, if you know an object's weight on Earth, you can easily calculate its weight on the Moon using this formula.
The gravity is less on the Moon, because the Moon is smaller than earth; it has less mass, and therefore "sucks" less than the earth. Weight is gravity times mass, you have the same mass on Earth and on the Moon (and in space), but weigh less on the moon.
Weight can be calculated using the formula W=mg, where m is mass and g is gravity. Your weight on Moon is 16.5% of what you experience on Earth.
To calculate the weight of a person on the Moon, we need to divide their weight on Earth by 6. This means that a person weighing 183 lb on Earth would weigh approximately 30.5 lb on the Moon. This calculation is based on the Moon's gravity being about 1/6th that of Earth's.
12 kg or 1/6th.
2.2 pounds is equal to 1 kilogram.
On the Moon, you'd weigh 15.47 pounds.
It becomes lighter due to less gravitational pull
A persons mass never changes. A persons WEIGHT changes according to the amount of gravitational force put on the object. Some 1 on the moon WEIGHS less on the moon but still has the same mass. Mass plays a factor in the weight but a persons mass never changes by where the person is or so I think.
okay take your weight (300lbs) and multiply it by .17 this should give you your weight on the moon. this is not the actual equation you use but the number will give you the right answer
The direct variation formula for weight on Earth compared to weight on the Moon can be expressed as ( W_m = \frac{1}{6} W_e ), where ( W_m ) is the weight on the Moon and ( W_e ) is the weight on Earth. This indicates that an object's weight on the Moon is one-sixth of its weight on Earth due to the difference in gravitational force. Consequently, if you know an object's weight on Earth, you can easily calculate its weight on the Moon using this formula.
The gravity is less on the Moon, because the Moon is smaller than earth; it has less mass, and therefore "sucks" less than the earth. Weight is gravity times mass, you have the same mass on Earth and on the Moon (and in space), but weigh less on the moon.
Weight can be calculated using the formula W=mg, where m is mass and g is gravity. Your weight on Moon is 16.5% of what you experience on Earth.
To calculate the weight of a person on the Moon, we need to divide their weight on Earth by 6. This means that a person weighing 183 lb on Earth would weigh approximately 30.5 lb on the Moon. This calculation is based on the Moon's gravity being about 1/6th that of Earth's.
To calculate your weight on the Moon, you can multiply your Earth weight by the Moon's gravitational factor, which is about 0.165. If you weigh 120 lbs on Earth, your weight on the Moon would be approximately 120 lbs × 0.165 = 19.8 lbs. Therefore, you would weigh about 20 lbs on the Moon.
A person's weight decreases on the Moon due to its lower gravity compared to Earth. The Moon's gravity is about 1/6th that of Earth, so a person weighs less because there is less gravitational pull on their body.