No. Matter is (informally) the "amount of substance", while weight is the force with which an object gets attracted, through gravity. They are related by the formula:
weight = mass x gravity
In the case of Earth, gravity is approximately 9.8 meters / second square, the same as 9.8 Newton / kilogram, so each kilogram has a weight of 9.8 Newtons. On the Moon (for example), each kilogram would only weigh about 1.6 Newtons.
No. Matter is (informally) the "amount of substance", while weight is the force with which an object gets attracted, through gravity. They are related by the formula:
weight = mass x gravity
In the case of Earth, gravity is approximately 9.8 meters / second square, the same as 9.8 Newton / kilogram, so each kilogram has a weight of 9.8 Newtons. On the Moon (for example), each kilogram would only weigh about 1.6 Newtons.
No. Matter is (informally) the "amount of substance", while weight is the force with which an object gets attracted, through gravity. They are related by the formula:
weight = mass x gravity
In the case of Earth, gravity is approximately 9.8 meters / second square, the same as 9.8 Newton / kilogram, so each kilogram has a weight of 9.8 Newtons. On the Moon (for example), each kilogram would only weigh about 1.6 Newtons.
No. Matter is (informally) the "amount of substance", while weight is the force with which an object gets attracted, through gravity. They are related by the formula:
weight = mass x gravity
In the case of Earth, gravity is approximately 9.8 meters / second square, the same as 9.8 Newton / kilogram, so each kilogram has a weight of 9.8 Newtons. On the Moon (for example), each kilogram would only weigh about 1.6 Newtons.
Not exactly. Density is weight divided by volume.
36cc of what, exactly? The answer varies depending on the substance. The general relationship is: mass = volume x density. That would give you the mass; if you really want the weight you can multiply the mass by the gravity to get the weight.
Weight and mass are not equal but are proportional to each other. Mass is a measure of an object's inertia and remains constant regardless of location, while weight is the force of gravity acting on the mass of an object and can vary with location. The relationship between weight and mass is given by the equation weight = mass x acceleration due to gravity.
No. It is the mass.
No, they are almost never equal.
Yes, grams is a measure of weight or mass.
The atomic mass of an element is equal to its molar mass in grams/mol.
atomic weight = mass of protons + mass of neutrons
Atomic weight/ mass = number of protons + number of neutrons
A weighed unit of liquid milk has exactly the same mass as an equal unit by weight of frozen milk. However frozen milk has a lower density than liquid milk.
The mass was conserved in the reaction of iron and sulfur. The law of conservation of mass states that mass is neither created nor destroyed. The weight of the beginning materials, iron and sulfur are exactly equal to the weight of the product, iron sulfide.
Equal parts by mass means that the quantities being compared have the same weight. For example, if two substances are combined in equal parts by mass, it means that they are mixed in a 1:1 ratio based on weight. This measurement ensures that each substance contributes equally to the overall mass of the mixture.