Find the density of a white dwarf of 9000 km radius and 0.35 solar masses.

The following questions use the mass and radius of a white dwarf (M=1.0 solar mass, R=6000...

The following questions use the mass and radius of a white dwarf (M=1.0 solar mass, R=6000 km) and neutron star (M=1.5 solar mass, R=12 km). 7. Consider an object with a temperature of T=107 K, and an X-ray luminosity of 1030 Watts. What radius would this object have? Is this object more likely a white dwarf or a neutron star?

Procyon, a 1.5 solar mass main sequence star, has a white dwarf companion of mass 0.6...

Procyon, a 1.5 solar mass main sequence star, has a white dwarf companion of mass 0.6 solar masses. They orbit each other with a period of 40.82 years. What is the distance between the two stars in au?

A white dwarf is a type of remnant star that will have about the same mass...

A white dwarf is a type of remnant star that will have about the same mass as the star? did, but its radius will be much smaller. A certain white dwarf has a mass of 8x10^30 kg and a radius of about 6100 km. a. Calculate the average density of the white dwarf in units of kilograms per cubic centimeter. b.What is the mass of a teaspoon of a material from a white? dwarf? (A teaspoon is about 4 cubic?...

A typical white dwarf has a mass of about 1.0MSun and the radius of Earth (about...

A typical white dwarf has a mass of about 1.0MSun and the radius of Earth (about 6400 kilometers). Calculate the average density of a white dwarf, in kilograms per cubic centimeter. Express your answer using two significant figures.

If both a neutron star and a white dwarf have a total mass of 1M®. If...

If both a neutron star and a white dwarf have a total mass of 1M®. If the radius of the white dwarf is 6 x 106 m and the neutron star has a radius of 8 km. What is the density of the neutron star? Compare the surface gravity of both stars? Assuming the neutron star is entirely made up of neutrons and the interparticle separation of a gas of density n is l ͌  n -1/3. How far apart are...

Calculate the escape velocity (Unit 18) from a white dwarf and a neutron star. Assume that...

Calculate the escape velocity (Unit 18) from a white dwarf and a neutron star. Assume that each has 1.7 M⊙ . Let the white dwarf's radius be 2.71 × 104 km and the neutron star's radius be 15 km. The escape velocity from a white dwarf is _______ × 10^6 m/s. The escape velocity from a neutron star is _______× 10^6 m/s.

type 1a supernova are the thermonuclear explosions of accreting white dwarfs that approach the Chandrasekhar limit....

type 1a supernova are the thermonuclear explosions of accreting white dwarfs that approach the Chandrasekhar limit. in this problem, consider a white dwarf of mass 1.4 solar masses and radius 10^4 km. Assume the entire star become Nickel-56 after the explosion. how long will it take all the Nickel-56 to decay into Iron-56?

Consider a main sequence star with a mass of 17 solar masses star with a radius...

Consider a main sequence star with a mass of 17 solar masses star with a radius of 7.6 solar radii. What are the following of this star: a) luminosity? b) surface temperature? c) mean density? d) average internal temperature? e) average internal pressure? ** all work must be shown for full points

type 1a supernova are the thermonuclear explosions of accreting white dwarfs that approach the chandrasekhar limit....

type 1a supernova are the thermonuclear explosions of accreting white dwarfs that approach the chandrasekhar limit. in this problem, consider an exploding white dwarf of mass 1.4 solar masses and a radius of 10^4km, and is made entirely of Nickel 56. How bright will this explosions be?

In a little over 5 billion years, our Sun will collapse to a white dwarf approximately...

In a little over 5 billion years, our Sun will collapse to a white dwarf approximately 16,000 km in diameter. (Ignore the fact that the Sun will lose mass as it ages.) (a) What will our Sun’s angular momentum and rotation rate be as a white dwarf? (Express your answers as multiples of its present-day values.) (b) Compared to its present value, will the Sun’s rotational kinetic energy increase, decrease, or stay the same when it becomes a white dwarf?...