Simple Earth Circumference Question

AI Thread Summary
To find the circumference of the Earth at 45 degrees North, one can use the Earth's radius (approximately 6.4 x 10^6 meters) as the hypotenuse of a right triangle. By dividing the radius by the square root of two, the new radius from the 45-degree angle to the Earth's center is obtained. This new radius can then be multiplied by 2π to calculate the circumference. The discussion also notes that when moving along the same latitude, the radius remains constant, while moving along longitude requires adjusting the radius using the formula r = Rcosθ. The original poster successfully found the answer and shared their method.
DaveMaron
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Hello. This is my first post. I just started physics this year, and I forgot how to do some simple trigonometry, but I'm not quite sure where to look.

1. My question is: If I know the circumference of the Earth at the Equator is about 2.49 x 10 to the Fourth,

How do I find the Circumference of the Earth 45 Degrees North?





2. Homework Equations : None



3. None...

Obviously it would be smaller, but I'm not quite sure how much.

Thanks for the help.
 
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Nevermind, I found the answer.

Use the radius of the Earth (6.4 x 10 to the sixth) as the Hypotenuse for the 45 Degree Triangle. Divide the radius by the Square root of two and this will give you the radius from the Tip of the 45 degree angle to the Center of the Earth. Multiply this by 2 x Pie to get the Circumference.

Thanks.
 
DaveMaron said:
Nevermind, I found the answer.

Use the radius of the Earth (6.4 x 10 to the sixth) as the Hypotenuse for the 45 Degree Triangle. Divide the radius by the Square root of two and this will give you the radius from the Tip of the 45 degree angle to the Center of the Earth. Multiply this by 2 x Pie to get the Circumference.

Thanks.

I can't remember the topic name, but I recall if you move along the same latitude, you use the same radius. But if you move along a longitude, the new radius r is give by r=Rcosθ, where θ is the angle of longitude. Sorry I replied too late, but it seems you got it out so all is well.
 

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