10 cm3 is a volume measurement equal to 10 cubic centimeters, which is the same as 10 milliliters. It is commonly used to measure the volume of liquids or the capacity of containers.
10 cm3 of water would displace an equivalent volume of water when submerged. This displacement would be equal to 10 ml or 10 grams of water.
The density of the object can be calculated using the formula: Density = mass / volume. Plugging in the values, Density = 350g / 10cm^3 = 35 g/cm^3. Thus, the object has a density of 35 g/cm^3.
The 10 cm3 of aluminum would have a higher density compared to the 5 cm3 of aluminum. Density is a physical property defined as mass per unit volume, so in this case, the larger volume (10 cm3) would contain more mass, resulting in a higher density compared to the smaller volume (5 cm3).
I took the liberty of changing the density to 5g/cm3 since 5g would be a mass quantity, and the volume to 10cm3, since 10cm would be a length quantity. density = mass/volume mass = density x volume = 5g/cm3 x 10cm3 = 50g
10 mL - A cc (cubic centimeter) and a mL (milliliter) are equal to each other in terms of volume.
Volume = mass/volume = 500g/10cm3 = 50g/cm3
10cm3
0.01 litres.
10ml is 10cm3
10 cm3 in Litres are 0,0001 l
To find the density of an object, you need to divide its mass by its volume. In this case, the mass is 20g and the volume is 10cm3. Therefore, the density would be 20g divided by 10cm3, which equals 2g/cm3.
10cm3
The concentration is 100 g/L.
4.32
Its is 10 cm³ hun
density = mass/volume density = 5/10 = 0.5 grams per cubic centimeter
density = mass divided by volume density = 20/10 = 2 g/cm3