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.
10g/ml. Density is the mass of an object per unit of volume.
The object has a density of 2.5 g/mL
On the surface of the earth it would weigh approx 0.98 Newtons.
5 grams per centimeter
a kitten
100g?
10
1000 g/ ml
what is the density of an 0bject that has a mass of 20g and a volume pf 10mL?
The density is 0.10 g/mL
Density = Mass/Volume = 200g/10ml = 20 grams/ml
Just divide the mass by the volume. If you look at any density figure it should have units that will tell its formula. the most standard way of describing density is g/ml, so 25g/10ml is 2.5g/ml
0.07 cm3 cm3 will be used because it is a SI unit. This will be affected by the diameter of the tube connected, the mass of the droplet, the gravity, the angle of contact with the tube, the temperatur and the density of of the liquid.
Density = Mass / Volume So, density of an object with a volume of 10ml and a mass of 20 grams is = m / v = 20grams/10ml = 2g/ml
what is the density of an 0bject that has a mass of 20g and a volume pf 10mL?
The density is 0.10 g/mL
Density = Mass/Volume = 200g/10ml = 20 grams/ml
Density = grams/milliliters Density = 10 g/10 ml = 1.0 g/ml
The density of the object can be calculated by dividing the mass by the volume. In this case, the density would be 5 g/ 10 ml = 0.5 g/ml.
The density is 10 kg/mL
0.25
Density = Mass/Volume = 15/10 = 1.5 g per mL
Just divide the mass by the volume. If you look at any density figure it should have units that will tell its formula. the most standard way of describing density is g/ml, so 25g/10ml is 2.5g/ml
Density = Mass/Volume ... in this case:50 gm/10 ml = 5 gm/ml
Use the definition of density, as mass / volume. 2g / 10ml = 0.2g/ml (That would float, by the way. You would need to push it down to get an accurate reading. And, of course, compensate for the volume of the pushing device.)