On Earth, mass and weight are used synonymously because the gravitational force acting on an object is constant. Weight is essentially the force of gravity acting on an object's mass. Since the gravitational acceleration is approximately the same at the surface of the Earth, the terms mass and weight can be used interchangeably.
Because the acceleration of gravity is almost precisely the same anywhere on earth. Weight is the force of gravity on a mass. However, if you have extremely sensitive equipment, you can detect the different weight of a given mass at different locations.
Because on a bathroom scale, you often measure your 'weight' by pounds or kilograms. But really, it should be measured in newtons. Pounds and kilograms are used for mass. So you are really measuring your mass on a scale, not your weight.
Mass is a measure of the amount of matter in an object, while weight is the force of gravity acting on an object's mass. Mass is constant, while weight can change depending on the gravitational pull. In simpler terms, mass is how much "stuff" is in an object, while weight is the force that pulls that object towards the Earth.
There is gravity on the moon! The gravity on the Moon is 1/6th that of what is observed on Earth. An object with a weight of 36 kg on Earth would weigh 1/6th that on the Moon. 1/6th of 36kg is, 6 kg. An object with a MASS of 36 kg on Earth would have the same 36 kg MASS on the moon. Mass is the amount of matter that makes up an object, whereas WEIGHT is the measurement of the force of gravity on that MASS. This is why your weight will change when visiting other planets, but your mass stays constant plant to planet!
No, mass and weight are not interchangeable terms. Mass refers to the amount of matter in an object, while weight is the force of gravity acting on an object's mass. Mass is constant regardless of location, while weight can vary depending on the strength of the gravitational pull.
Because the acceleration of gravity is almost precisely the same anywhere on earth. Weight is the force of gravity on a mass. However, if you have extremely sensitive equipment, you can detect the different weight of a given mass at different locations.
The mass is 64.44 grams. But the difference between mass and weight is that mass is weight is how heavy it is on the planet you weigh it on and mass it the weight it is on Earth, whether is is on Earth, or not.
The mass of mars is about 0.107 Earth masses.
Because on a bathroom scale, you often measure your 'weight' by pounds or kilograms. But really, it should be measured in newtons. Pounds and kilograms are used for mass. So you are really measuring your mass on a scale, not your weight.
Mass is a measure of the amount of matter in an object, while weight is the force of gravity acting on an object's mass. Mass is constant, while weight can change depending on the gravitational pull. In simpler terms, mass is how much "stuff" is in an object, while weight is the force that pulls that object towards the Earth.
There is gravity on the moon! The gravity on the Moon is 1/6th that of what is observed on Earth. An object with a weight of 36 kg on Earth would weigh 1/6th that on the Moon. 1/6th of 36kg is, 6 kg. An object with a MASS of 36 kg on Earth would have the same 36 kg MASS on the moon. Mass is the amount of matter that makes up an object, whereas WEIGHT is the measurement of the force of gravity on that MASS. This is why your weight will change when visiting other planets, but your mass stays constant plant to planet!
The weight of an object on Earth is the same as its mass, which is 1kg in this case. Weight is a measure of the force of gravity acting on an object's mass.
Because mass is not the same as weight. Weight is mass times gravity so your weight will change if you are on the earth or moon but your mass will stay the same.
Mass remains the same; weight will be one half that of the same mass on earth.
No, mass and weight are not interchangeable terms. Mass refers to the amount of matter in an object, while weight is the force of gravity acting on an object's mass. Mass is constant regardless of location, while weight can vary depending on the strength of the gravitational pull.
Technically... not really. It would perhaps be more accurate to use the terms formula mass and molecular mass rather than formula weight and molecular weight. This because in physical terms, weight is a force while mass is a measure of the amount of substance in something.
This may be a trick question. We often use the terms "weight" and "mass" interchangeably, but we use the term "weight" to refer to mass that is in a gravitational field (and generally the gravitational field of earth). . If a person weighs 150 pounds, it means that we have used "pound" as a reference, and that involves (or invokes) the effect of the pull of the earth on that person. But that person has mass that is independent of gravitational attraction. A person who has a mass of 150 pounds has that mass no matter where he may be. That person is weightless in deep space where there isn't anything of substance around to exert a gravimetric pull on the person. Mass is present, but there is no weight. . The earth is not said to have weight. Instead, it has mass, and that mass is a bit short of 1024 kilograms. . See an answer to a related question, "What is the weight of earth?"