To calculate your weight on the Moon, first determine your weight on Earth in pounds or kilograms. Since the Moon's gravitational pull is about 1/6th that of Earth's, divide your Earth weight by 6. For example, if you weigh 180 pounds on Earth, your weight on the Moon would be approximately 30 pounds (180 ÷ 6 = 30).
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.
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.
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.
You can take the weight of anything on earth, multiply it by 0.359, and you'll havethe weight of the same object on Mars, in the same units you started with (pounds,tons, ounces, newtons, stone, etc.)That number comes from mashing together the differences in both the weight andradius of the earth and Mars; those are the physical characteristics that determinean object's weight on any planet.Similarly, you can take the earth-weight of any object in any unit of weight, multiplyit by 0.1633, and you'll have its weight on the moon.
To calculate your weight on the Moon, first determine your weight on Earth in pounds or kilograms. Since the Moon's gravitational pull is about 1/6th that of Earth's, divide your Earth weight by 6. For example, if you weigh 180 pounds on Earth, your weight on the Moon would be approximately 30 pounds (180 ÷ 6 = 30).
The weight of the Earth was not discovered but calculated by Sir Isaac Newton using the law of universal gravitation. He estimated the Earth's mass and combined it with the gravitational constant to calculate its weight.
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.
Weight = Mass X (acceleration due to gravity), which on Earth is 9.8m/s^2.
To convert your weight from Earth to Saturn, you would first calculate your weight on Earth using the equation Weight = Mass x Gravity, then divide that weight by Saturn's gravity (which is about 1.08 times that of Earth). This would give you an estimation of how much you would weigh on Saturn.
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.
To calculate a person's weight on Mercury, you would use the formula: Weight on Mercury = (Weight on Earth / 9.81 m/s^2) * 3.7 m/s^2. This is because Mercury's gravity is approximately 3.7 m/s^2, which is about 0.38 times the gravity 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.
10 kilograms is the mass. To calculate the weight (in newtons), multiply the mass by 9.8.
Weight them under gravity or calculate from momentum of impact or spring load under centripetal force in space. Then refer the weight or the force to the gravity of earth at 9.81m/s2 and account for its' weight under earth gravity.
You can take the weight of anything on earth, multiply it by 0.359, and you'll havethe weight of the same object on Mars, in the same units you started with (pounds,tons, ounces, newtons, stone, etc.)That number comes from mashing together the differences in both the weight andradius of the earth and Mars; those are the physical characteristics that determinean object's weight on any planet.Similarly, you can take the earth-weight of any object in any unit of weight, multiplyit by 0.1633, and you'll have its weight on the moon.
To calculate weight in space, you would use the formula: Weight in space = Weight on Earth x (gravitational pull of space / gravitational pull of Earth). Since gravitational pull in space is typically much lower than on Earth (about 0.17 times that of Earth), your weight in space would be significantly less. Keep in mind this calculation assumes a constant gravitational pull throughout the region of space you are in.