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

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...

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) Calculate Eddington luminosity for a neutron star (M = 1.4M), a white dwarf (M =...

a) Calculate Eddington luminosity for a neutron star (M = 1.4M), a white dwarf (M = 0.7M), supermassive black hole (M = 4.1 × 106M) in the center of our Galaxy. M is the typical notation for the solar mass (look up the M value on the web). Express your answer in ergs/s. b) Assuming distances of 2 kpc (typical distance to an accreting neutron star), 80 pc for a white dwarf , and 8 kpc for the supermassive black...

A white dwarf star (R = 0.0073 R⦿, M= 1.4 M⦿) goes over the Chandrasekhar limit...

A white dwarf star (R = 0.0073 R⦿, M= 1.4 M⦿) goes over the Chandrasekhar limit and collapses to a neutron star (R=10 km). At that point the collapse stops. The collapse time is 0.1 seconds. A) Calculate the total amount of energy liberated from the star in the collapse. B) Estimate the luminosity (energy liberated/collapse time). C) If the white dwarf was originally spinning with a 1.3 day period, what would the period of the neutron star rotation be?

Calculate the density of a neutron star with a radius 1.7 x 104 m, assuming the...

Calculate the density of a neutron star with a radius 1.7 x 104 m, assuming the mass is distributed uniformly. Treat the neutron star as a giant nucleus and consider the mass of a nucleon 1.675 x 10-27 kg. Your answer should be in the form of N x 1017 kg/m3. Enter only the number N with two decimal places, do not enter unit.

a) Your cosmic journey brought you into the vicinity of a neutron star. In fact, you...

a) Your cosmic journey brought you into the vicinity of a neutron star. In fact, you are orbiting this neutron star at an orbital distance of 2,184 kilometers. The neutron star has mass of 1.6 solar masses (MSun = 1.99 × 1030 kg). What is the local acceleration due to gravity that you experience in your spaceship? Express your answer in m/s2; use scientific notation and round the coefficient to two decimals. b) What is the escape velocity from Earth’s...

Assume a neutron star has a mass of about 1.2 times the mass of the Sun...

Assume a neutron star has a mass of about 1.2 times the mass of the Sun and a radius of 7 kilometers. a) Calculate the average density of a neutron star, in kilograms per cubic centimeter. b) If the escape speed is V2esc=2GM/R, work out the formula for the radius of the Event Horizon around a Black Hole of mass M. c) Assume the Even Horizon is the size of the Black Hole. What is the density of a Black...

46.. The Crab Pulsar is a neutron star, rotating with a period of about 33.085 ms....

46.. The Crab Pulsar is a neutron star, rotating with a period of about 33.085 ms. It is estimated to have an equatorial radius of 15 km, about average for a neutron star. The pulsar is slowing in its rotation so that it is expected to come to rest 9.5 × 1010 s in the future. Assuming it is slowing with a constant angular acceleration, what is the tangential acceleration of an object on the neutron star’s equator? 4.8 ×...

The escape velocity of a bullet from the surface of planet Y is 1599.0 m/s. Calculate...

The escape velocity of a bullet from the surface of planet Y is 1599.0 m/s. Calculate the escape velocity from the surface of the planet X if the mass of planet X is 1.33 times that of Y, and its radius is 0.887 times the radius of Y.

Planet Zeta-7 has a surface gravitational acceleration of 1.84 m/s² and a surface escape velocity of...

Planet Zeta-7 has a surface gravitational acceleration of 1.84 m/s² and a surface escape velocity of 2.75 km/s. Planet Alpha-9 has a mass that is 2.3 times that of Zeta-7 and a radius that is 3.1 times that of Zeta-7. What is escape velocity from the surface of Alpha-9?