The question is not clear. Same as what?
g is directly proptional to mass of earth. if the mass of eath will be increase mass of g will be also increase.If the mass of earth will be decrease the mass of g will bi also decrease.If the mass of earth will increase four times then the mass of g will be also increase four times. G is a gravitational contant.it remain same throughout the universe if the mass of earth will become four times,the value of G will not change it will remain the same as it is a constant.its value is 6.67x 10^-11 N-M^/KG
Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.
No. CV, as in "caloric value", is a measure of heating value; different units can be used, but any unit used is energy/mass, which of course is not the same as simply energy.
no gravity is a force mass is the same as weight
A neutron and a proton almost have the same mass. A neutron and 1,840 electrons almost have the same mass.
By their very definition, mass and weight cannot be the same. If you were to go to a planetoid whose radius was the same as the earth's radius but the mass was approx a tenth of the earth's mass, then the mass and weight of an object on its surface would have the same numeric value. However, because they are measures of different things, the fact that they have the same numeric value does not mean that they are the same: 5 seconds and 5 kilograms have the same numeric value but nobody (in their right mind) would argue that 5 seconds = 5 kilograms.
If we assume that the mass of paper is the same in a bill of each denomination, andthe mass of ink in each is also the same, then the value of any mass of $10-bills is10 times the value of the same mass of $1-bills.So the difference in their value is nine times the number of bills in either pile.
Equivalent in what?The mass should be almost the same, since milk consists mainly of water.The nutritional value, of course, is not the same.Equivalent in what?The mass should be almost the same, since milk consists mainly of water.The nutritional value, of course, is not the same.Equivalent in what?The mass should be almost the same, since milk consists mainly of water.The nutritional value, of course, is not the same.Equivalent in what?The mass should be almost the same, since milk consists mainly of water.The nutritional value, of course, is not the same.
Amount can be a value in money terms, or the mass of an object. Neither is a capacity.Amount can be a value in money terms, or the mass of an object. Neither is a capacity.Amount can be a value in money terms, or the mass of an object. Neither is a capacity.Amount can be a value in money terms, or the mass of an object. Neither is a capacity.
Density is mass divided by volume. If we assume the mass of the iron and the cotton is the same, you will find that the iron will occupy less space (less volume) than that of the cotton. The value of a mass divided by a small volume is higher than the value of the same mass divided by a larger volume. If we assume the volume of both the iron and the cotton is the same, you will also find that the mass of the iron will be higher than the mass of the cotton. The value of a large mass divided by a volume is larger than the value of a small mass divided by the same volume. In both assumptions, the value of mass divided by volume for the iron is higher than the value of mass divided by volume for the cotton. Since density is mass divided by volume, the density of iron is therefore higher than the density of cotton.
When atomic mass is expressed in unified atomic mass units, it is similar to isotopic mass and has the same numerical value as that of atomic mass. The atomic mass or the relative isotopic mass is the mass of one atom which at a time can be only one isotope.
because the species have the same m/z value (mass to charge ratio)
Neutrons and protons have mass 1 (relative to proton, given the value of 1).Electrons have mass 1/1840 (relative to proton, given the value of 1).:)Protons and neutrons have almost the same mass.
High caloric value for the amount of food you're actually eating. Compare fried chicken to the same food mass of celery sticks. High caloric value for the amount of food you're actually eating. Compare fried chicken to the same food mass of celery sticks.
g is directly proptional to mass of earth. if the mass of eath will be increase mass of g will be also increase.If the mass of earth will be decrease the mass of g will bi also decrease.If the mass of earth will increase four times then the mass of g will be also increase four times. G is a gravitational contant.it remain same throughout the universe if the mass of earth will become four times,the value of G will not change it will remain the same as it is a constant.its value is 6.67x 10^-11 N-M^/KG
Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.Density is not the same as mass. Density is mass divided by volume.
Gold.Explanation: Gold has a higher density than water.This means, the value of Mass/volume for gold is more than that of water.Here, the volume is same for both the substances. Then, for the density to vary, the mass should vary because volume is the same. As gold as a higher density, it has more mass than water for the same volume of the substance.