On Earth mass measures the gravitational pull an object has.
Any place off Earth or with a unequal gravitational pull mass is measured in the amount of atoms an object has.
Mass and weight are two different things: you cannot measure the mass of your weight. That is like talking about the temperature of your height - it makes no sense.
First, note that pound is an obsolete and non SI unit for mass.You can measure the mass of meat, your mass, the mass of a pumpkin, the mass of a video camera etc.
9.81 m/s^2
Everything that has mass can be measured in grams. You couldn't measure things like sound pitch, brightness, height, time, etc with grams. Grams are often used as a measure of weight and while this is practical for most purposes grams are actually a measure of mass. Weight can change based on location (on the moon you would weigh less than on Earth) but your mass would stay the same.
Mass is important in science because we need to measure and quantify things. The chemist might be finding the mass of a given volume of an unknown material to discover its density. This will help identify the material. Additionally, when we measure things in the laboratory to perform chemical experiments, the knowledge of the mass of a material we are working with will allow us to gain knowledge of what happens in chemical reactions. Certainly measuring mass is done all the time in chemical engineering. In the physics lab, we need to know the mass of things to make calculations regarding force, acceleration, momentum and the like. Mass is a variable in all those equations, and it cannot be ignored. A knowledge of mass and how to measure it are fundamental tools in the investigator's kit.
You need to have the volume and the mass to calculate the density
-- Gram . . . used to measure the mass of little things -- Kilogram . . . used to measure the mass of medium-size things -- Metric ton . . . used to measure the mass of enormous, heavy things
There is no such measure as a kiligram! A kilogram is a measure of mass. A metre is a measure of distance. The two measure different things and,according to basic principles of dimensional analysis, conversion from one to the other is not valid.There is no such measure as a kiligram! A kilogram is a measure of mass. A metre is a measure of distance. The two measure different things and,according to basic principles of dimensional analysis, conversion from one to the other is not valid.There is no such measure as a kiligram! A kilogram is a measure of mass. A metre is a measure of distance. The two measure different things and,according to basic principles of dimensional analysis, conversion from one to the other is not valid.There is no such measure as a kiligram! A kilogram is a measure of mass. A metre is a measure of distance. The two measure different things and,according to basic principles of dimensional analysis, conversion from one to the other is not valid.
It does not.An ounce is a measure of mass. 0489 is a pure number . The two measure different things. While you can have 1/489 of an ounce, that is not factoring an ounce.It does not.An ounce is a measure of mass. 0489 is a pure number . The two measure different things. While you can have 1/489 of an ounce, that is not factoring an ounce.It does not.An ounce is a measure of mass. 0489 is a pure number . The two measure different things. While you can have 1/489 of an ounce, that is not factoring an ounce.It does not.An ounce is a measure of mass. 0489 is a pure number . The two measure different things. While you can have 1/489 of an ounce, that is not factoring an ounce.
None.A gram is a measure of mass. A kilometre is a measure of distance. The two measure different things and,according to basic principles of dimensional analysis, conversion from one to the other is not valid.None.A gram is a measure of mass. A kilometre is a measure of distance. The two measure different things and,according to basic principles of dimensional analysis, conversion from one to the other is not valid.None.A gram is a measure of mass. A kilometre is a measure of distance. The two measure different things and,according to basic principles of dimensional analysis, conversion from one to the other is not valid.None.A gram is a measure of mass. A kilometre is a measure of distance. The two measure different things and,according to basic principles of dimensional analysis, conversion from one to the other is not valid.
A milligram is a measure of mass. A quart is a measure of volume. The two measure different things and, according to basic principles of dimensional analysis, conversion from one to the other is not valid.A milligram is a measure of mass. A quart is a measure of volume. The two measure different things and, according to basic principles of dimensional analysis, conversion from one to the other is not valid.A milligram is a measure of mass. A quart is a measure of volume. The two measure different things and, according to basic principles of dimensional analysis, conversion from one to the other is not valid.A milligram is a measure of mass. A quart is a measure of volume. The two measure different things and, according to basic principles of dimensional analysis, conversion from one to the other is not valid.
The mass of insects, paper clips.
Density = (mass) divided by (volume). You must have known that at some level; otherwise, how did you decide that mass and volume were the things to measure, instead of, say, weight and temperature ?
Mass and weight are two different things: you cannot measure the mass of your weight. That is like talking about the temperature of your height - it makes no sense.
You cannot.A kg is a measure of mass, a Newton is a measure of force. The two measure different things and any attempt to convert from one to the other if flawed. Measuring them per unit area (cm^2 or mm^2) does not change that.
None, since there can be no conversion. A kilogram is a measure of mass. A metre is a measure of distance. The two measure different things and, according to basic principles of dimensional analysis, conversion from one to the other is not valid.
It is a set of metal wrights calibrated to measure fixed numbers of units of mass. They will be used to weight things in a mass balance.