Do all rocks weigh the same if they have a different mass but the same weight?
Let's look at the question without one bit of it..... "Do all rocks weigh the same if they have ......... .... ... the same weight?"
If things are the same weight, then they weigh the same.
No, all rocks will not weigh the same even if they have different masses but the same weight. Weight is the effect of gravity on an object, while mass is the amount of matter in an object. Therefore, two rocks with different masses but the same weight will not weigh the same.
The weight of Mars with you would be the combined weight of your 201 pounds and the mass of Mars, which is approximately 639 quadrillion kilograms. To calculate the total weight, you would need to convert your weight to the equivalent mass in kilograms and then add it to the mass of Mars.
A ton of rocks and a ton of water both weigh the same, which is one ton. Weight is determined by the mass of an object, regardless of its composition.
No, warm air and cold air exert different pressures due to their different densities, but the weight of a volume of air is determined by its mass. Therefore, a mass of warm air does not weigh more than a mass of cold air, assuming the volumes are the same.
To calculate the weight in pounds, you would convert the mass from kilograms to pounds. 1 kilogram is approximately 2.205 pounds. Therefore, if the mass is 146 kilograms, the weight would be approximately 321.77 pounds.
Weight is defined by gravity. So in space, you weigh nothing. The more gravity, the more you weigh. Mass, however, does not change with gravity, and is also another factor is weight.
No, not all coins weigh the same. The weight of a coin depends on its material composition, size, and denomination. For example, a nickel weighs more than a penny because it is made of a different metal.
The weight of a liquid is determined by its density, which is a measure of how much mass is packed into a given volume. Liquids with different densities will weigh different amounts because they have different amounts of mass in the same volume.
Weight is mass times gravity, and there is less gravity on the moon, therefore you weigh less on the moon.
You would weigh nothing. You still have mass, but mass is different than weight. Ever wonder why they say you are "weightless" in space? It's because of that: you would weigh nothing in space.
No, weight is the force of gravity acting on an object's mass. So, an object with mass will have weight when it is in a gravitational field, such as on Earth, but may not weigh the same on different planets or in space where gravity is weaker.
Astronauts' weight would vary on different planets due to differences in gravity. Their weight is determined by the gravitational pull of the planet they are on, so they would weigh less on a planet with weaker gravity and more on a planet with stronger gravity.
The mass is equal to the weight (both in grams) but different insects vary greatly in weight depending on species and age. Some weigh a tiny fraction of a gram, while very large bugs can weigh 10 grams or more.
Different mass means different gravity meaning your weight would change. For example divide your weight by six-that's what you would weigh on the Moon.
Well every book has a different weight, so it really just depends on what they all weigh. (weigh them separately) then add it together, therefore giving you the mass of three books.
Mass is a property of matter and is therefore a constant. Weight however can change, it is the force exerted by that mass in a gravity field. Thus in different gravity fields a constant mass will weigh differently. Weight = Mass * the acceleration of gravity.
Mass directly affects weight. If an object has more mass, it will weigh more.
No. Weight is the measure of how much force a planet pulls an object, that force is determined by the planet's mass and radius, and each planet has a different mass and radius.