First find the molar mass (or Atomic Mass) i.e h1206 would be (1*12)+(16*6). You then take that number and multiply it by Avrogondi's number which is: 6.02 *1023 which will then give you the # of representative particles in that mole.
You don't actually 'convert' them.
The 'density' of a substance is the same whether you have a speck of it or a carload
of it. But the mass depends on how much of it you have.
If you have a piece of a substance, and you know the density of that substance,
you still have to measure the volume of the sample. Then multiply the density by
that volume, and the result is the mass of the piece you have.
The formula is D=m/v but you at least need to know 2 of the variables as well.
Mass is measured in grams. If the mass is given in Imperial units such as pounds, convert to grams by multiplying the number of pounds by 453.592.
You multiply the mass by the acceleration due to gravity.
You weigh them.
You never can convert centimeters to grams. A length has no weight. Essentially correct, but just to be pedantically accurate, a gram is a unit of mass, not weight.
This is not a valid conversion; milligrams (mg) and grams (g) are measures of weight or mass and mL (milliliters) is a measure of volume.
This cannot be sensibly answered. Milliliters is a measure of volume and mg is a measure of weight or mass.
Those two units of measure do not convert. One is weight or mass and the other is volume.
Those two units of measure do not convert. One is weight or mass and the other is volume.
multiply by 9.8
Multiply the mass fraction by 100.
Weight=mass x acceleration due to gravity = mass(lbs) x 32.1 (ft/s^2) So, mass(lbs) = (weight)/(32.1)
Usually a scale. Get the weight and convert to mass.
#moles = mass/molar mass mass = #moles*molar mass mass = .10 moles*(atomic weight of na+atomic weight of N+3(atomic weight of oxygen)
Weight them under any gravity and convert them to weight at gravity of 9.81 m/s2. The term mass is set so it can account to same reference point making reliable quantity of substance. Differ of weight and mass is that, on earth a mass weight 6 kg is weight 1 kg on moon. However, convert the weight set on moon to the earth gravity of 9.81 m/s2 it yield 6 kg of mass.
Basically you need more information. You can use the following formulae: density = mass / volume weight = mass x gravity
cc (cubic centimeters) is volume gms (grams) is mass (or weight) They don't convert.
"Pound" is a unit of force. "Kg" is a unit of mass. They don't convert directly. On Earth, 70 pounds is the weight of 31.751 kg of mass. (rounded) On the moon, 70 pounds is the weight of 191.858 kg of mass. (rounded) In other places, 70 pounds is the weight of different amounts of mass.
You cannot. Volume and weight are two different characteristics and, according to basic dimensional analysis, conversion from one to the other is not valid. If you had the density of the substance, you would be able to convert the volume to mass. But mass is not the same as weight. You would then need information about the strength of gravitational attraction at the location to convert the mass into weight.
You never can convert centimeters to grams. A length has no weight. Essentially correct, but just to be pedantically accurate, a gram is a unit of mass, not weight.
Convert that to kilograms. Then multiply by 9.8 to convert to newtons. This assumes standard Earth gravity.