Specific Gravity of lead is 11.35.
Books state that weight=(sp.gr.)Xvolume.
So weight of 40cm3 block of lead = 11.35 x 40 gms
= 254 gms
I understand this is wieght.
Do we need to devide this weight by accelaration due gravity to calculate mass ?
If whole block is converted to Energy as per Einstein Equation
E=254 x c x c or E=254 x c x c / g
where c = velocity of light
g = accelaration due gravity
I had asked similar question earlier. I could not get satisfactory answer. Do somebody have answer?
The density of lead is 11.34 g*cm^3, so multiplying that by the volume you wish to find the mass of will give you the mass. In this case it is 113.4 g, or .1134 kg.
Lead density = 11.34 gram/cubic cmFor 10 cubic cm, mass is 113.4 grams
114g
So your ratio is 100 to 2 and to apply this to 15:x. 15/100, x2 is 0.3 centimetres cubed.
The volume of an object having a mass of 100 grams depends on the density of the object. --------------------------------- and the temperature (the hotter things are the more they expand) 100grams of water with a density of 1 - at standard temperature would have a volume of 100 cubic centimeters. a substance with density 2 - at standard temperature would have a volume of 50 cubic centimeters.
15000000
Impossible to answer. A volume is not measured in grams it is a cubic amount
780 milliliters is equal to 26.38 fluid ounces.
Your question does not make sense. 200 cubic centimetres is not a measure of mass. Do you mean 200 grams? To find density you divide the mass by the volume.
0,892 kg
If 100cc = 103g => 1cc = 1.03g
1 Liter is 1000 Cubic centimeters 1 meter is 100 centremeters 1 cubic metre is 100 X 100 X 100 centimeters = 1000000 cubic centimeters 1000000 cubic centimeters = 1000 liters
100 centimeters = 1 meter 100 x 100 = 10000 sq centimeters = 1 sq meter 100 x 100 x 100 = 1000000 cubic centimeters = 1 cubic meter. A cubic centimeter is one millionth of a cubic meter.
Nope. 100 cubic centimeters = 0.0264 US gallons.
A cubic meter is equal to 1,000,000 cubic centimeters because there are 100 centimeters in a meter, and if you cube 100, you get 1,000,000. Think of it this way... Take a cubic centimeter and stack 100 of them in a row. You have a meter's worth of cubic centimeters. You also have 100 of them. Now, stack 100 of these 100 cubic centimeters next to each other in a flat pile. You have a grid of 100 x 100, or 10,000 cubic centimeters. This flat pile is one meter by one meter by one centimeter. Now, stack 100 of them on top of each other. You have a cube of 100 x 100 x 100 cubic centimeters, or 1,000,000 of them, and the cube is one meter by one meter by one meter. That is also one cubic meter.
I meter is 100 centimeters to go from centimeters cubed to meters cubes you divide by 100 cubed; so for example 1000 cubic centimeters is 1000 divided by 100 cubed or 0.001 cubic meters
100 × 100 × 100 = 1,000,000cm3
Since a meter has 100 centimeters, it follows that a cubic meter has a million (100 cubed) cubic centimeters.
4 x 40/100 = 1.6 cubic centimetres
There are 100 centimeters in one meter, so there are 1003, or 1,000,000 cubic centimeters in one cubic meter.