A neutron star is so dense that one teaspoon (5 millilitres) of its material would have a mass over 5×1012 kg or 5,500,000,000 tons. About 900 pyramids of Giza.
The resulting force of gravity is so strong that if an object were to fall from just one meter high it would hit the surface of the neutron star at around 2,000 kilometres per second, or 4.3 million miles per hour.
See related question.
A typical neutron star's gravity is about 2 ×1012 m/s².
If that doesn't mean much:
It's about 100,000,000,000 times greater than Earth.
The density of a neutron star is some million tons per cubic centimeter.
It would weigh 10kg.
1000,0000,00000,00000,00000,000000,00000 times as much you would weigh on planet earth
27kg is 10.179kg on Mars.
You would weigh 57 pounds.
If your mass is 48 kg, then you weigh 105.8 pounds on earth.
no
456 pounds
456lbs.
65.1 kg is a measure of mass. The weight of an object with mass 65.1 kg will depend upon the force of gravity at the point where it is weighed. For example, on the moon it will weigh about a sixth as much as it would on earth, whereas on a neutron star it would weigh much much more.
You would weigh 102 lb.
If you mean in the same volume, only a tiny fraction of Earth - the neutron star is much smaller. The radius of a typical neutron star is perhaps 12 kilometers. In comparison, the Earth has a radius of about 6371 kilometers - that makes Earth's volume about 150 million times greater. (On the other hand, the neutron star has a much greater mass than Earth.)
About 12.8
6.25
If you weigh 180 pounds here on Earth, on Venus, you'd weigh 158.04 pounds.
14.9 pounds
The earth is believed to weigh about 10^25 pounds.
On Mars, you weigh 37.7% as much as you would on Earth. If you weigh 100 pounds on Earth, you weigh only 37.7 pounds on Mars. If you weigh 150 pounds on Earth, you weigh only 56.6 pounds. The equation is .37 x Earth weight = Martian weight.