What is the angular size of the moon as viewed from Earth's surface?

AI Thread Summary
The angular size of the Moon as viewed from Earth's surface can be calculated using the formula for angular size, which is defined as the angle subtended by the object at the observer's eye. The mean radius of the Moon is approximately 1.737 million meters, and its mean distance from Earth is about 385.4 million meters. The discussion emphasizes that the answer is expressed in radians because angular size is typically measured in this unit. For the telescope question, the same angular size principles apply, and the calculations should consider the telescope's focal lengths. Understanding these concepts is crucial for accurately determining the Moon's angular size from both Earth and through a telescope.
monke
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Homework Statement



a) what is the angular size of the moon as viewed from the Earth's surface?
b) The objective and eyepiece of a refracting telescope have focal lenghts 80cm and 2.0cm. What is the angular size of the moon as viewed though this telescope?

mean radius of the moon- 1.737x10^6m
mean distance from earth- 3.854x10^8m

Homework Equations



Im not sure what equations to use or why the answer from the book is in radians


The Attempt at a Solution



i tried using the equation m=near point/ object distace, with the near point being 25cm and object distace being the distance from the earth. HOwever the anwer from the book is in radians.


Thanks in advanced!
 
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monke said:
Im not sure what equations to use or why the answer from the book is in radians

Of course the answer is in radians. It's asking you for the angular size. The angular size is defined as the angle subtended (spanned) by the object as seen by the observer. In other words, how big does it look? How much of your field of view does it take up?

What is the equation for an angle in terms of of the radius and the arc length (which you can equate to physical size)?
 
would that be theata= h (size of object)/N ( near point =25cm)?
 
No, I was just talking about the equation that gives you the definition of an angle (in the radian system)
 
i think i found it
theata = 2(radius)/disatance from the sun?
 
angle in terms of radians is
theta= s/r
(size of arc)/ radius
 
how should i have applied that to this particular question?
 
for the second part of the question, if a refracting telescope functions like a compound microscope does that mean that you would use the same angular equation?

M= -L/foX N/Fe
 
monke said:
angle in terms of radians is
theta= s/r
(size of arc)/ radius

monke said:
how should i have applied that to this particular question?

Well, how big is the object? How far away is it? Therefore, what angle does it span? This is its angular (or apparent) size. That will get you the answer to part a.
 

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