one fifth
It is: 5kg-1kg = 4kg
Well, darling, the object with a greater mass of 5 kg will have a greater gravitational potential energy compared to the object with a measly 2 kg. It's simple physics, honey. So, if you're looking to lift something heavy, go for the 5 kg option and show off those muscles!
Momentum = (mass) x (speed) = (0.1) x (5) = 0.5 kilogram-meter per second
1 kg = 1,000 g2 kg = 2,000 g..5 kg = 5,000 g500 of them would be less.
5kg=______hg
They are equal.
5000g
8kg is 3kg larger than 5000g (5kg)
5000g is equal to 5kg. To convert grams to kilograms, you divide the number of grams by 1000.
1kg1000g so 5kg=5000g :( :| Idiots!!! ===
An object with a higher mass would have more inertia than a 5kg object. Inertia is directly related to an object's mass - the greater the mass, the greater the inertia. So, any object that weighs more than 5kg would have more inertia.
Just compare the number of kilograms.
5kg '
a kilogram is 1000 grams (hence the kilo prefix) so in 1kg there is 5 x 100grams- so to make up a total of 5kg, you would have 25 100g lots
Both 5kg of steel and 5kg of cotton wool have the same weight because they both weigh 5kg. Weight is a measurement of mass, and in this case, they both have the same mass of 5kg.
It is: 5kg-1kg = 4kg
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.