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The weight of a star is usually balanced by two forces: the gravitational force, acting inward, and the force created by nuclear reaction, acting outward.

The weight of a star is usually balanced by two forces: the gravitational force, acting inward, and the force created by nuclear reaction, acting outward. Over a long period of time, the force due to nuclear reactions gets weaker, causing the gravitational collapse of the star and crushing atoms out of existence. Under such extreme conditions, protons and electrons are squeezed to form neutrons, giving birth to a neutron star. Neutron stars are massively heavy - a teaspoon of the substance of a neutron star would weigh 100 million metric tons on the Earth.

a) Consider a neutron star whose mass is twice the mass of the Sun and whose radius is 12.3 km. (The mass of the Sun is 1.991030 kg.) If it rotates with a period of 2.49 s, what is the speed of a point on the Equator of this star?

b) What is the value of g at the surface of this star?

c) Compare the weight of a 1.10-kg mass on the Earth with its weight on the neutron star. How many times bigger is this mass on the neutron star than on Earth?

d) If a satellite is to circle 12.3 km above the surface of such a neutron star, how many revolutions per minute will it make? Do not enter unit.

e) What is the radius of the geostationary orbit for this neutron star?

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