To convert 10mm^3 to cm^3, divide by 1000 (since 1 cm^3 = 1000 mm^3). Therefore, 10mm^3 is equal to 0.01 cm^3. To convert 0.01 cm^3 to 50 cm^3, multiply by 5000 (50 / 0.01). Therefore, 10mm^3 is equal to 50cm^3.
A gas syringe would be useful for collecting 50cm3 of gas as it allows for accurate measurement and collection of gases in a controlled manner.
Density = Mass/Volume = 150g / 50cm3 = 150/50 g per cm3 = 3 g per cm3
Approximately 179 grams of sugar can dissolve in 50 cm3 of water at 75 degrees Celsius.
525/50 = 10.5 g/cm3
The mineral has a density of 2 g/cm3
When soil particles are mixed with water, the soil particles occupy some volume, reducing the total volume of the mixture. This is known as the phenomenon of volume reduction due to the presence of solid particles in a liquid. Therefore, mixing 50cm3 of soil with 50cm3 of water will not result in a total volume of 100cm3 because the soil particles displace some of the water volume.
A gas syringe would be useful for collecting 50cm3 of gas as it allows for accurate measurement and collection of gases in a controlled manner.
The volume of displaced water for a metal cylinder with a volume of 50cm3 is: 13,210 US gallons of water or 11,000 UK gallons of water.
Very small. No more than 50cm3. It depends on the rat.
The cubed root of 45 is 3.5568... and the cubed root of 50 is 3.6840... Therefore, yes
Density = Mass/Volume = 150g / 50cm3 = 150/50 g per cm3 = 3 g per cm3
Density = mass/volume , so 200/50 = 4 g / cubic cm.
Density= Mass/Volume = .183kg/50cm3= .00366 kg / m^3 the above solution is wrong because you have to get the units right density = mass/volume = kg/m^3 = 1000g/1000000cm^3 density = 0.183/0.00005 = 3660Kg/m^3
The density as defined as the mass per unit volume. Accordingly, the density equals 184/50 = 3.68 g/cm3
The density of the object is 4 g/cm3. To calculate density, you divide the mass by the volume. In this case, 200g / 50 cm3 = 4 g/cm3.
50cc is the size of the engine/motor. 50cc means it is 50 cubic centimetres, that's 50cm3 (that 3 should be smaller and diagonally above the m to the right).
Approximately 179 grams of sugar can dissolve in 50 cm3 of water at 75 degrees Celsius.