The RR Lyrae stars in a globular cluster have apparent magnitudes of 14. Assuming an absolute visual magnitude of 0.5, calculate how far away is the cluster (in parsecs)? (Hint: Use the Magnitude-Distance Formula: ?=10(??−??+55))
The RR Lyrae stars in a globular cluster have apparent magnitudes of 14. Assuming an absolute visual magnitude of 0.5, calculate how far away is the cluster (in parsecs)? (Hint: Use the Magnitude-Distance Formula: ?=10(??−??+55))
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The RR Lyrae stars in a globular cluster have apparent magnitudes of 14. Assuming an absolute visual magnitude of 0.5, calculate how far away is the cluster (in parsecs)? (Hint: Use the Magnitude-Distance Formula: ?=10(??−??+55))
![The RR Lyrae stars in a globular cluster have apparent magnitudes of 14. Assuming an
absolute visual magnitude of 0.5, calculate how far away is the cluster (in parsecs)?
my-My+5'
(Hint: Use the Magnitude-Distance Formula: d = 10( ),
а) 6000 рс
b) 5000 pc
c) 2500 pc
d) 1000 pc
5](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F54d4e7ea-fe34-4383-9652-a0de2e726d75%2Fc5d25c87-ce1a-4b5b-8044-b88560bcc898%2Fooavxee_processed.png&w=3840&q=75)
Transcribed Image Text:The RR Lyrae stars in a globular cluster have apparent magnitudes of 14. Assuming an
absolute visual magnitude of 0.5, calculate how far away is the cluster (in parsecs)?
my-My+5'
(Hint: Use the Magnitude-Distance Formula: d = 10( ),
а) 6000 рс
b) 5000 pc
c) 2500 pc
d) 1000 pc
5
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