The second sample is 200/10 = 20 times as large.
So its mass will be 20 times as great ie 20*20 grams = 400 grams.
The melting point is independent of the quantity. What changes is the amount of heat which must be supplied.
cellulose and starch
Cellulose and starch
Its density. Density is mass per unit volume.
That depends on what substance you are measuring. Grams are a unit of weight, while cups are a unit of volume. There will be more grams in a cup of a more dense substance than there would be in a less dense substance. For example, there will be more grams in a cup of rocks than a cup of marshmellows, more grams in a cup of water than a cup of air, etc. To convert from a unit of weight (mass) to a unit of volume (or vice versa), you need to know the density of the substance being measured.
I consider this question as erroneous.
The melting point is independent of the quantity. What changes is the amount of heat which must be supplied.
A hibitory substance relative to a water sample is a substance that allows for the growth of microorganisms. This would be like a contamination of water that can cause disease to spread.
I would do it the same way Archimedes did; Weigh the substance, then immerse it in a substance that would not affect it, i.e. water, alcohol, etc., to determine the volume of the sample of the substance, then divide the weight by the volume and reduce the result to grams/cubic centimetre, or whatever unit is convenient; g/cc kg/L tonne/hectolitre, etc., etc. OR: Measure the mass and volume of the substance, then divide the mass by the volume
kinetic energy from translation
All intrinsic properties will be the same regardless of sample size. Some examples would be density, color, temperature, chemical reactivity, etc.
965<nope
63.8g
It would have to be a very dense substance.
This question makes no sense.Grams are a measure of weight;whereas centimeters are a measure of length.weight and volume (which would be cubiccentimeters) are related by the density of the substance.So that if the density of the substance was known, then multiplying the density (in grams per cubic centimeter) by the volume (in cubic centimeters) of the substance would give the weight (in grams) of the substance.
Cellulose and starch
cellulose and starch