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The lithosphere lies above the asthenosphere. The asthenosphere is where isostatic adjustments take place and it is a very ductile region. Seismic waves pass slower through this region of the earth than they do through the overlying lithosphere.
if you went by a plane travelling at 250 mph it would 2hours and 30 minutes.
On earth, 28.66 kilograms of mass weigh 63.184 pounds. But if you take them anywhere else, that changes.
That's hard to say, since asteroids come in all sort of sizes. By the way, it is more appropriate to talk about the mass of astronomical objects, than about their weight.
Our mass and our weight on Earth just so happens to be really close numbers here on Earth because we were created here. Mass= The space your body takes up or how much volume you take up. Weight=the amount of gravity pulling you down. So say we were to go to the moon. Your mass would be much more than your weight since there is hardly any gravity on the moon.
Mass and weight are different.BUTTo make it complicated they are both stated in pounds or Kilograms SoWeight is how much force is holding to the planets surface. On the moon this is about one sixth of earth Mass is the same on earth and the moon or in deep space and is used to calculate how much energy it will take to move you.The answer you are looking for:Yes, the Mass of a person is the same on the moon and Earth.
The lithosphere lies above the asthenosphere. The asthenosphere is where isostatic adjustments take place and it is a very ductile region. Seismic waves pass slower through this region of the earth than they do through the overlying lithosphere.
athenosphere and lithosphere
Mars is 0.107 times the mass of earth. The reciprocal of that is the number of planets the mass of Mars it would take to equal a planet the mass of earth, or a little over 9 and 1/3.
Gravity on earth is 9.5 Her mass is 50 kg 50*9.5 475 newtons
if you went by a plane travelling at 250 mph it would 2hours and 30 minutes.
lithosphere plates collide forming the folded mountains!
Earth has more gravity. The elephant's mass will hardly change if you take it to the Moon, and:weight = mass x gravity
No. Your mass is the amount of stuff you're made of. You take it with you wherever you go, and it doesn't change.
The average mass of a typical paperback book ranges from 0.5 to 1.5 pounds, while hardcover books can weigh between 1.5 to 3 pounds. This can vary depending on the size, number of pages, and paper quality of the book.
First some facts. The moon is:1/4 Earth's radius (r)1/50 Earth's volume1/80 Earth's mass (M)The formula for gravitational attraction (weight) is:F=GM1M2/r2In this equation:F is the force between the masses,G is the gravitational constant,M1 is the first mass (you),M2 is the second mass (the moon or the Earth), andr is the distance between the centers of the masses.Therefore Fmoon= Fearth /{(Mearth/Mmoon )(rmoon/rearth)2}Take the Earth weight and multiply it by 0.1655 .If that seems like too much trouble, then just take 1/6 of the Earth weight.
On earth, 28.66 kilograms of mass weigh 63.184 pounds. But if you take them anywhere else, that changes.