scientificly no it wouldint its pure science
please find the answer
Nothing would happen to mass, but as weight is technically a force due to gravity, based on mass, the weight would be doubled, but again mass would remain the same.
Mass is completely consistent. The amount of mass and matter on earth never changes, but is only recycled again and again. no but density is
If you went to Mars, your mass would remain exactly the same. You would weigh considerably less. Mass is determined by a balance. Weight is determined by how hard you push down against gravity.
Who said you can't do that ? ? You change your own total mass every time you eat breakfast.
it would come down to the type of triangle.
Weight is a result of the Earth pulling us down. The force we are pulled down is dependent on Earth's mass, so on another planet (with a different mass) one would be pulled down in a different manner.
Gravity down when mass down. How do you get mass down? Hmm, how do you get down off an elephant? You don't get down off an elephant; you get down off a goose (down is the name of small feathers).
Because there is less gravity pushing down on you.
Find the mass of an empty container using a balance. Fill the container with 100 ml of water and measure the mass again, The difference between the two measurements is the mass of 100 ml of water.
A lot would depend on the mass of the black hole. A black hole the mass of an asteroid (should any of that size exist) would probably enter the Solar System and get back out again, just like any comet. We might not even notice it. A black hole the mass of a star would probably cause a lot of disruption in the orbits of the planets.A lot would depend on the mass of the black hole. A black hole the mass of an asteroid (should any of that size exist) would probably enter the Solar System and get back out again, just like any comet. We might not even notice it. A black hole the mass of a star would probably cause a lot of disruption in the orbits of the planets.A lot would depend on the mass of the black hole. A black hole the mass of an asteroid (should any of that size exist) would probably enter the Solar System and get back out again, just like any comet. We might not even notice it. A black hole the mass of a star would probably cause a lot of disruption in the orbits of the planets.A lot would depend on the mass of the black hole. A black hole the mass of an asteroid (should any of that size exist) would probably enter the Solar System and get back out again, just like any comet. We might not even notice it. A black hole the mass of a star would probably cause a lot of disruption in the orbits of the planets.
I would use a postage scale or a laboratory balance to derive the mass of the card.Once I knew the mass, if I had to write it down, remember it, or tell other peopleabout it, it would undoubtedly be most convenient to express it in grams .