6.67 x 10-11 N
10 N
The mass is twice as much, so multiply by 2. The radius is 3 times as much--the gravitational force is inversely proportional to the square of the radius, so multiply by 1/9.2 X 1kg/9 = 0.2 kg.
Big bottoms
-- A 2-lb cheese wrapped in heavy foil and sealed in a box. -- A rock that weighs 2.2 pounds.
Relative to what? On the Earth - 1kg.
Because of gravity Mass is a property of an object measured in kilograms. Weight is a unit of force measured in Newtons. On Earth a 1 kg mass weighs 10 N. Because other planets have different masses they pull things towards them with a different strength. On the Moon 1kg weighs only a fraction of what it does on Earth (but it still has the same mass). This is because the Moon has a lower mass than the Earth (and therefore a smaller gravitational field).
well depends what planet you are on the basic formulae is as follows weight = mass X gravitational field (gravitational pull) on each planet so depending on what planet you wish to know ill put int the answer . Mercury gravitational pull is 3.7 so its 3.7kg Venus gravitational pull is 8.8 so its 8.8kg Earth gravitational pull is 9.8 so its 9.8kg Mars gravitational pull is 3.7 so its 3.7kg Jupiter gravitational pull is 23.2 so its 23.2kg Saturn gravitational pull is 9.0 so its 9kg Uranus gravitational pull is 8.7 so its 8.7kg Neptune gravitational pull is 11.1 so its 11.1kg Pluto gravitational pull is 0.6 600g
inertial mass (m) = 1Kg gravitational mass = GmM/R2 where G = 6.673x10-11m3kg-1s-2 m = inertial mass 1Kg M = mass of the Earth R= Radius of the Earth gravitational mass = 9.8 Newtons depending on your latitude.
0.45359237kg for an approximate result, divide the mass value by 2.20462262
To calculate the weight of something you must multiply it's mass by the strength of the gravitational pull it experiences. So on earth this pull g, is 9.81ms-2 so 1kg weighs 1 x 9.81 = 9.81N N stands for newtons which is a unit of force as weight is a force.
At 100 meters this rock's potential energy is 980 joules.
Force = mass x accelerationF = maOn Earth, where the gravitational acceleration is approximately 9.8ms-2, (9.80665002...ms-2), if an object has a weight (gravitational force) of 1N then it has a mass of ~0.1kg.a = 9.8ms-2F = 1Nm = F / a = ~0.1kg
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.
Strictly, kg (kilogrammes) is a unit of weight rather than mass, which is measured in N (Newtons). This is important, because the MASS of an object does not change, whereas its WEIGHT does change according to the gravitational pull it is experiencing. On earth 1kg is about 10N. On the moon, say, something weighing 1kg would have a MASS of a little over 60N. If we change the word 'mass' in your question to 'weight', then the answer would be 'anything greater than 5kg'. If not, then 'anything greater than 50N subject to gravitational forces on the Earth's surface'. An object's INERTIA is the force that must be overcome in order to change its position (if stationary): so, it is clearly easier to move a 5kg object than it is to move any object that is heavier.
Neither! They both have the same mass of 1 Kilogram.
It is: 5kg-1kg = 4kg
The mass is twice as much, so multiply by 2. The radius is 3 times as much--the gravitational force is inversely proportional to the square of the radius, so multiply by 1/9.2 X 1kg/9 = 0.2 kg.
1kg.