The astronaut from the country that has a space program that wants to send a person to the moon's weight will decrease due to the fact that weight is directly related to gravity.
The mass of an astronaut in space does not change, except for the minor changes that occur due to change in exercise and eating. Mass is mass, and represents the amount of material in an object. His weight, however, does change, because weight is mass times the acceleration due to gravity, and gravity does indeed change.
His mass does not change, only his relative weight.
In everyday usage, mass is often interchangeably with "weight". Every astronaut is different, just like everybody else.
mass doesnt change but weight does
Nothing, but his weight is 1/6 of his weight on Earth.
The mass of an astronaut in space does not change, except for the minor changes that occur due to change in exercise and eating. Mass is mass, and represents the amount of material in an object. His weight, however, does change, because weight is mass times the acceleration due to gravity, and gravity does indeed change.
The mass is the same; the weight is not.
His mass does not change, only his relative weight.
The mass of the astronaut remains the same. However, the weight of the astronaut is less on the moon.
In everyday usage, mass is often interchangeably with "weight". Every astronaut is different, just like everybody else.
mass doesnt change but weight does
Nothing, but his weight is 1/6 of his weight on Earth.
The mass of an astronaut does not change when she is visiting the International Space Station. Mass is a property that does not change, but the weight of a person does change in space.
About 700N 70kg • 10m/s = 700N
It does not decrease in mass, only weight, the mass is still all there, but as when it has been heated smoke is given off from the element, and goes into the atmosphere. It may not sound like the mass is all there with the heated element, but if the smoke were conserved during the experiment the weight would be the same as before the experiment.
There is no difference in an astronaut's mass no matter where he or she might be. Mass is a constant, as opposed to weight which is dependent upon acceleration.None.Put simply. Mass is a measurement of how much matter is in an object, whereas weight is a measurement of how hard gravity is pulling on that object. As their is less gravity on the moon, your weight would be different, your mass would not.
weight= mass*gravity in this case, an astronauts mass has stayed the same, but the gravitational force acting upon him has decreased, decreasing his weight. gravity decreses because the astronaut is further from the centre of gravitational attraction (the earth)