How Far Apart Are Two 1kg Masses That Attract with a Force of 1kg.wt?

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Two 1 kg masses attract each other with a force of 1 kg.wt, which equates to 9.8 Newtons. The user calculated the distance between the masses using the gravitational force formula and found it to be 0.00025 cm. However, the book states the distance is 8 cm, leading to confusion. Further calculations reveal that using the book's distance results in a force much smaller than 1 kg.wt, suggesting a possible error in the book. The conclusion is that the user's calculations appear correct, and the book may contain a typo.
Amith2006
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Sir,
Two point masses each equal to 1 kg attract one another with a force of 1 kg.wt. What is the distance between the 2 point masses?
I solved it in the following way:
Here F = 1 kg.wt = 9.8 Newton, m1 = m2 = 1 kg, G = 6.6 x 10^(-11) N.m^2/kg^2
F = [G(m1)(m2)]/r^2
r^2 = [G(m1)(m2)]/F
By solving I get,
r = 0.00025 cm
But the book answer is 8 cm. Please say which one is right. Here the symbol ^ represents power.
 
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Your answer looks OK to me. (G is closer to 6.67 x 10^(-11) N.m^2/kg^2)
 
Your work looks correct F = Gm1m2/r^2

In order for the book to be right you must have

Gm1m2/.08^2 = F

This means 6.67e-11*1*1/0.0064 = F

Evaluating gives...

F = 6.67e-11/0.0064 = 1.0422e-8 N

This number is both ugly and way too small for 1kg.wt to be equal to 1.0422e-8 N. I would argue that there is yet another typo in your book. You may want to double check the referencing in the solutions portion of your text.
 
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