Physics, 13.07.2019 21:10 neptunesx

Stars typically form in clusters having internal velocity dispersions, dv, of several
kilometers per second. assume that a uniform spherical molecular cloud of total mass m
and radius r forms a cluster of n stars with a star formation efficiency, e, and assume
that the stars are distributed uniformly throughout the cloud with a 3-dimensional
velocity dispersion of dv. (the parameter e is defined as the fraction of the cloud’s mass
that ends up in stars.) assume that the portion of the cloud that does not end up in stars is
blown completely away by the star formation process (e. g., by winds, jets, and
supernovae).
a. write down the condition that the resulting stellar cluster remain bound after the gas
has been dispersed to infinity. for both parts of this exercise, assume that n is a very
large number, so that the mass is very uniformly distributed.
b. evaluate what initial cloud density would be required to form a bound cluster if
e = 0.1, dv = 3 km/s, and m = 5 x 104 m8.

Answers: 1

Show answers

Another question on Physics

Physics, 21.06.2019 22:30

Solar cell a produces 100 joules of energy, when a light source is shown on it for 3 minutes. solar cell b produces 200 joules of energy when the same light source is shown on it for 5 minutes. which solar cell works better? a) solar cell b, because it produces more energy. b) solar cell b, because it generates more power. c) solar cell a, because it produces energy quicker. d) solar cell a, because it generates a greater wattage. eliminate

Answers: 2

Answer

Physics, 22.06.2019 12:30

What’s #16 asking and how do i solve it?

Answers: 2

Answer

Physics, 22.06.2019 19:30

Select light for the type of wave, adjust the wavelength so that the light is red, and increase the amplitude of the light to the max. then, select the start button at the source location to begin producing the waves. light is a form of electromagnetic wave, containing oscillating electric and magnetic fields. the wave amplitude detector mentioned above shows how the electric field oscillates in time at the location of the probe. the amplitude of the wave at the location of the probe is equal to the maximum electric field measured. how does the amplitude of the wave depend on the distance from the source?

Answers: 2

Answer

Physics, 23.06.2019 00:30

Due in 40 explain in terms of frame of reference if you’re inside a moving train everything on the outside can seem to be moving

Answers: 1

Answer

You know the right answer?

Stars typically form in clusters having internal velocity dispersions, dv, of several
kilomete...

Questions