It is equal to 77.799 kilograms approximately. Kilogram is the metric unit and pound is the imperial unit for mass. 1 Kilogram is 2.204 pounds. So we multiply pound by 0.4535 to get the equivalent kilograms.
1 kilogram weighs 2.20462 pounds, on earth. (rounded)
51 kilograms weighs (51 x 2.20462) = 112.436 pounds (on earth, rounded)
171 kg = 376.990 lb
Multiply by 2.205
Kilogram is the metric unit and pound is the imperial unit for mass. 1 Kilogram is 2.204 pounds. So we multiply pound by 0.4535 to get the equivalent kilograms. Answer in kg approx = 73.03Kilograms and pounds aren't directly convertible."Kilogram" tells you the object's mass, and "pound" tells you its weight.An object that weighs 161 pounds on earth has 73.03 kilograms of mass.But in other places, 161 pounds is the weight of a different mass, and 73.03kilograms of mass has a different weight,
Technically, you don't. "Kilogram" is a unit of mass, which is a property of an object and doesn't change, whereas "pound" is a unit of the object's weight, which changes from place to place. On Earth, 1 kilogram of mass weighs 2.205 pounds. In other places, it has a different weight.
338 kilograms = 745.16 pounds.
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 or near the earth's surface, 1 kilogram of mass weighs about 2.20462 pounds. (rounded)214 kilograms weighs (214 x 2.20462) = 471.79pounds (rounded)
Kilogram is the metric unit and pound is the imperial unit for mass. 1 Kilogram is 2.204 pounds. So we multiply pound by 0.4535 to get the equivalent kilograms. Answer in kg approx = 73.03Kilograms and pounds aren't directly convertible."Kilogram" tells you the object's mass, and "pound" tells you its weight.An object that weighs 161 pounds on earth has 73.03 kilograms of mass.But in other places, 161 pounds is the weight of a different mass, and 73.03kilograms of mass has a different weight,
Technically, you don't. "Kilogram" is a unit of mass, which is a property of an object and doesn't change, whereas "pound" is a unit of the object's weight, which changes from place to place. On Earth, 1 kilogram of mass weighs 2.205 pounds. In other places, it has a different weight.
The "kilogram" is a unit of mass. An object of 700 kg has a mass of 700 kg.Near the earth's surface, it weighs about 1,543 pounds (6,860 newtons).
98 kilograms = 216.05 pounds.
338 kilograms = 745.16 pounds.
1 kilogram mass weighs 2.20462 pounds (rounded) on or near the surface of the earth.327 kg mass weighs (327 x 2.20462) = 720.91 pounds (on earth, rounded)
Not really.Somethings weight is a measure of the mass of the object in a gravity field. therefore an object of mass 1 Kilogram will weigh 1 kilogram on Earth but only 1/3 of a kilogram on the Moon.For this reason we say stars / planets/ moons etc have mass not weight as it is mass that is the invariant property of matter not weight.
On earth, a kilogram of mass weighs around 2.2 pounds. Mass does not change unlike weight, which is reliant on the force of gravity.
Yes it is. 1 kilogram is the same weight (mass) as about 2.2 pounds (2.2046 lb).
The weight of any object is caused by the gravitational field of the nearest, large object. For a 1kg mass on the Earth its weight is about 10 Newtons. On the moon, the same 1kg mass would have a weight of about 2 Newtons.
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.
A kilogram (mass) on the moon is still a kilogram (mass)A kilogram (referred to as its weight) is about 1/6 of it's Earth weight or 160 g (approx)Aside: In common usage we talk about an object having a weight, not a mass (e.g. Your driver's license states your weight). In science a kilogram is a unit of mass. Weight is what we perceive when we try to lift that mass - it is the force of gravity pulling the kilogram mass to the Earth. It gets a bit confusing when you are at Earth's surface because a the kilogram mass has a numerically kilogram of force (usually referred to as weight) attracting it downwards.