Starting with the fluid equation, show that the pressure exerted due to the cosmological constant is PA = -PAc2 (Recall that we define an energy density due to the cosmological constant as the following scaled parameter PA = ^/8nG)
Starting with the fluid equation, show that the pressure exerted due to the cosmological constant is PA = -PAc2 (Recall that we define an energy density due to the cosmological constant as the following scaled parameter PA = ^/8nG)
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![In Chapter 7 we discussed the need for the addition of the cosmological constant A to the
Einstein Field Equations and further to our derived equations.
iii.
Starting with the fluid equation, show that the pressure exerted due to the cosmological
constant is PA = -Pac?
(Recall that we define an energy density due to the cosmological constant as the
following scaled parameter PA =
THIS IS A COSMOLOGY QUESTION!!!!!!!!](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5e7edf76-9c9d-4c69-a4c6-01f89ea15608%2Fffd8e5f8-0c38-4392-b966-01964a4697f9%2Ffxxg5je_processed.jpeg&w=3840&q=75)
Transcribed Image Text:In Chapter 7 we discussed the need for the addition of the cosmological constant A to the
Einstein Field Equations and further to our derived equations.
iii.
Starting with the fluid equation, show that the pressure exerted due to the cosmological
constant is PA = -Pac?
(Recall that we define an energy density due to the cosmological constant as the
following scaled parameter PA =
THIS IS A COSMOLOGY QUESTION!!!!!!!!
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