3.684
The object's density is about 3.68 g/cm3
Divide the mass of the object by it's volume in your question 350 g / 95 cm3 to find density. Your answer will be 3.7 g cm-3 ( grams per cubic centimeter).
350/95 = 3.684 gm/cc (rounded)
Density is calculated as Mass / Volume. Therefore for an object that has a mass of 350 grams and a volume of 95 cm^3, the density would be 3.684 g/cm^3. Water has an estimated 1g/cm^3 density, therefore the density of this object is greater than that of water and would sink.
Density is calculated as Mass / Volume. Therefore for an object that has a mass of 350 grams and a volume of 95 cm^3, the density would be 3.684 g/cm^3. Water has an estimated 1g/cm^3 density, therefore the density of this object is greater than that of water and would sink.
Density can be calculated using the formula D = m/v. Where D is density; m is mass; and v is volume. For your example: mass(m) is 350 grams volume(v) is 95cm2 (can also be written as 95 mL) therefore D = 350g/95cm2 =3.6g/cm2
Density = Mass/Volume = 3.68 grams per cubic centimetre.
low density
This is due to Saturn's density being much lower than Earth's density.
Divide the mass of the object by it's volume in your question 350 g / 95 cm3 to find density. Your answer will be 3.7 g cm-3 ( grams per cubic centimeter).
Density is found by dividing mass by volume. So in this case density = 27gm divided by 95cc = 0.2842 gm/correct to 4 significant figures) That means that each cubic centimetre of the solid has a mass of 0.2842 grams
density = mass / volume so d= 120g / 200cm^3 d=0.6 g /cm^3