1000 g = 1 kg
1000/20 = 50
50 x 20 g = 1 kg
Milliliters is volume and grams is mass, so you need to know mass density to solve this. For water, it has mass density of 1 gram per cubic centimeter which is the same as 1 gram per millitre of volume. So for water only, 20 ml = 20 grams.
No, the apple mass does not stay the same after taking a bite. When a person takes a bite out of an apple, a portion of the apple's mass is removed. The total mass of the apple decreases as a result.
mass fraction of Substance A = (mass of Sub. A) / (total mass)
If the momentum started as zero, yes, it would.
That would be called mass energy, or total internal energy.
This cannot be sensibly answered. Milliliters (mL) is a measure of volume, grams is a measure of weight or mass.
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
Milliliters is volume and grams is mass, so you need to know mass density to solve this. For water, it has mass density of 1 gram per cubic centimeter which is the same as 1 gram per millitre of volume. So for water only, 20 ml = 20 grams.
The mass of the reactants compare to the mass of the products in that they are equal. The law to conservation of mass states that mass cannot be createdor destroyed. It can only be altered which would be a case in a chemical reaction.
Molar mass of Na = 22.9898g/mol Molar mass of Cl = 35.45g/mol Total molar mass = 58.4398g/mol 58.4398g * 3.7mol =216.22726g
One kg = 1000 grams. So one gram is 10^-3 kilograms. One mili gram is 10^-3 gram = 10^-6 kg. Kilograms and grams are both the metric units of mass. So the answer in kg is 0.020
The mass of an object can be expressed in mass per unit or in total mass. Total mass represent the full amount.
Yoy need to know the molar mass of this solute and the mass of the solute:moles = total mass/molar mass
That would be impossible as mass and energy are related.
the total mass of the moon is, 73,483,000,000,000,000,000,000 kg.
Neither. Mass, is your total amount of substance, mass never changes.
mass (g) solute divided by total mass (g)times 100%total mass (g) = [mass solute + mass (g) solvent]54.0 / [128 + 54.0] = 29.6%