120 pounds equates to approximately 54.4 kg
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∙ 14y agokg (kilogram) is a measure of mass, not of weight. If a person has a mass of 120 kg on Earth, he will also have a mass of 120 kg on the Moon. His weight will change, his mass won't change.Mass is measured in kilograms and weight is measured in newtons..In daily life we use to say that this person having weight 120 kg but that is not correct .But in scientific language we must say that person is having a mass of 120 kg and his weightwould be calculated according to gravity of earth that is 9.8m/sec .Weight is actually the force ...so weight would beforce = acceleration * massweight = gravity * massweight =9.8 * 120=1176 newton(On earth)Gravity on moon is 1/6 of earth i.e. 9.8/6=1.64m/secAnd on moon also the mass would be 120 kg and the weight would beforce = acceleration * massweight = gravity * massweight = 1.64 * 120=196.8 newton (On Moon)As you can see the weight(force) on earth is 1176 newtonfor person having mass 120 kg and the weight(force) on moon is 196.8 newton.As the force on man on earth is 1176 newton so he would feel much more heavier.And the force on man on moon is 196.8 newton so he would feel lighter there.So the person having mass 120 kg will have more weight(force) on earth than on moon.Dont get confuse between mass and weight ...if you are 55 kg ...in daily use word we say our weight is 55 kg but that is not weight instead it's your mass and your weight is (55*9.8=539 newton) means you have mass 55 kg and weight 539 newton...if you still get problem do mail mevivianpeter2@gmail.comI m ready to help you
1 lb = aprox 0.453 592 kg120 lb = aprox 54 kgAnswer: 120 kg = 264.554 lb120 pounds is approximately 54.4 kilograms.
A normal, healthy weight for a 13 year old averaged sized person should be in range from 105 pounds to 120 pounds.
1 pound = 16 ounces so 120 pounds = 120*16 = 1920 ounces.1 pound = 16 ounces so 120 pounds = 120*16 = 1920 ounces.1 pound = 16 ounces so 120 pounds = 120*16 = 1920 ounces.1 pound = 16 ounces so 120 pounds = 120*16 = 1920 ounces.
A British Two Pound coin weighs 12 grams. There are 10 x Two Pound coins in Twenty Pounds. 10 x 12 = 120. Twenty Pounds worth of Two Pound coins weighs 120 grams.
To convert pounds to kilograms, divide the weight in pounds by 2.2046. In this case, 120 pounds is approximately 54.43 kilograms.
"120 pounds" is the correct way to write 120 pounds in weight.
The object would weigh about 20 pounds on the moon. This is because the gravitational pull on the moon is about one-sixth that of Earth's gravity.
You would weigh approximately 45 pounds on Mercury if you weighed 120 pounds on Earth. This is because Mercury has lower gravity compared to Earth.
F = GMm/R² where * F is the force of attraction between two objects * G is the universal gravitational constant; G = 6.67*10-11 N-m²/kg². The units of G can be stated as Newton meter-squared per kilogram-squared or Newton square meter per square kilogram. * M and m are the masses of the two objects * R is the distance between the objects, as measured from their centers * GMm/R² is G times M times m divided by R-squared this is newtons gravity equation, it is not as accurate as einsteins but in this case it should do the trick. there is more on this website: http://www.school-for-champions.com/science/gravity_universal_equation.htm
If you weigh 120 pounds on earth, you would weigh 127.2 pounds on Saturn. Your weight on Saturn is 1.06 times more than on earth.A person that weighs 120 pounds on Earth would weigh 127 pounds on Saturn. To find out how much a person would weigh on Saturn, simply multiply that person's weight by 1.066.
Use Google, just type, "120 pounds in kilograms" (without the quotes) 120 pounds = 54 kilograms Google can be used to convert lots of stuff, such as "1 hour in days" or "5 cups in liters"
It is equal to 0.2646 pounds approximately. Kilogram is the metric unit and pound is the imperial unit for mass. 1 Kilogram is 2.204 pounds. So we multiply kg by 2.204 to get the equivalent pounds.
On the moon, the object would have a mass of 120 g as mass does not change depending on the location. However, its weight would be different due to the difference in gravity between the Earth and the moon.
120 pounds is equivalent to 8.57 stones.
kg (kilogram) is a measure of mass, not of weight. If a person has a mass of 120 kg on Earth, he will also have a mass of 120 kg on the Moon. His weight will change, his mass won't change.Mass is measured in kilograms and weight is measured in newtons..In daily life we use to say that this person having weight 120 kg but that is not correct .But in scientific language we must say that person is having a mass of 120 kg and his weightwould be calculated according to gravity of earth that is 9.8m/sec .Weight is actually the force ...so weight would beforce = acceleration * massweight = gravity * massweight =9.8 * 120=1176 newton(On earth)Gravity on moon is 1/6 of earth i.e. 9.8/6=1.64m/secAnd on moon also the mass would be 120 kg and the weight would beforce = acceleration * massweight = gravity * massweight = 1.64 * 120=196.8 newton (On Moon)As you can see the weight(force) on earth is 1176 newtonfor person having mass 120 kg and the weight(force) on moon is 196.8 newton.As the force on man on earth is 1176 newton so he would feel much more heavier.And the force on man on moon is 196.8 newton so he would feel lighter there.So the person having mass 120 kg will have more weight(force) on earth than on moon.Dont get confuse between mass and weight ...if you are 55 kg ...in daily use word we say our weight is 55 kg but that is not weight instead it's your mass and your weight is (55*9.8=539 newton) means you have mass 55 kg and weight 539 newton...if you still get problem do mail mevivianpeter2@gmail.comI m ready to help you
The difference in weight between Earth and the Moon is due to the gravitational force exerted by each celestial body. Earth's gravitational force is stronger than the Moon's, so an object will weigh less on the Moon because the gravitational pull is weaker. This difference in gravitational force accounts for the variation in weight experienced by an object on Earth versus the Moon.