Weighing to a constant mass is important for accurate measurements. It ensures that the actual mass of the substance being weighed is being determined without the influence of changing variables like evaporation, temperature fluctuations, or other environmental factors. This helps to improve the reliability and reproducibility of experimental results.
An object with twice the mass of another will weigh twice as much when both objects are on the same planet or celestial body with a constant gravitational acceleration. Weight is directly proportional to mass when the gravitational acceleration remains constant.
A plane weighs the same whether it's on the ground or in the air, as weight is determined by the mass of the object and the force of gravity acting on it. The sensation of weightlessness experienced by passengers in flight is due to the plane and everything in it falling at the same rate within the Earth's gravitational field.
You would weigh less on the moon because it has less gravity pulling on you compared to Earth. Weight is the measure of the gravitational force acting on an object, while mass is a measure of the amount of matter in an object, which remains constant regardless of location.
Crucibles are weighed to a constant mass in an oven to ensure that all moisture and other volatile components have been completely removed. This process is important for accurately determining the mass of the material being analyzed and for obtaining precise and reliable experimental results.
Weight is a measure of the force of gravity acting on an object's mass. Weight can change depending on the gravitational force acting on an object, while mass remains constant regardless of location. Therefore, weight is affected by mass and the strength of gravity.
An object with twice the mass of another will weigh twice as much when both objects are on the same planet or celestial body with a constant gravitational acceleration. Weight is directly proportional to mass when the gravitational acceleration remains constant.
If you weigh 90 pounds, you would still weigh 90 pounds regardless of where you are. Weight is a measurement of the force of gravity acting on an object's mass, and it remains constant as long as the gravitational force is constant.
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.
No, weight changes but mass remains constant irrespective of the surroundings. :)
No, your mass remains the same regardless of the gravitational force acting on you. Weight is dependent on gravity and mass, so on the moon where gravity is weaker, you would weigh less compared to on Earth, but your mass would stay constant.
Yes. Mass is constant. However, you would weigh less on Mars.
Mass(m) is the product of the gravitational pull, which is constant (g), of the planet or the largest heavenly body nearest to the object to be weighed and it's weight(w). Hence, gravitational constant(g) is the ratio between the MASS of an object and the Weight of the object. While the mass of an object is constant anywhere in the universe, the weight depends on the value of the gravitational constant. Thus, a 1 lb-mass of an object in earth will have the same mass of 1 lb-mass in the moon though they will weigh differently.Mass is measured in kilograms, hectograms , decagrams , grams , decigrams ,centigrams , milligrams.
Yes a constant weight would be important to maintain or gain muscle mass. Constant weight fluctuations are not a good thing, a pound wont matter
To determine the mass of ice, you would need to weigh it using a balance. The mass of the ice would be the same as the weight you measure if you are using a balance on Earth, as the gravitational force remains constant.
Yes, an object's weight can change even if its mass remains constant. This happens if it moves to a place with different gravity. An object on the Moon would weigh only one sixth of what it did on Earth.
Mass is constant. You have the same amount of mass wherever you are in the Universe. Weight is the affect of gravity acting on your mass. So you weigh 1/6th as much on the Moon because there is less gravity there but you have the same amount of mass as you do on Earth.
WT=MASS*G .gravity in space is zero,so u will b weightless.but mass is a constant entity and hence will remain the ame.