Determining universal gravitational constant G

AI Thread Summary
To determine the universal gravitational constant G, two masses are selected, and their separation is varied while measuring the gravitational force between them. The force is plotted against the inverse of the distance squared, allowing the slope of the graph to be used to estimate G. The discussion highlights the importance of including uncertainties in measurements and expressing results with the correct number of significant figures. A participant initially struggled with the measurement method but resolved it by utilizing a simulation. The approach emphasizes the relationship between force, mass, and distance in gravitational calculations.
Tony Manilla
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Homework Statement


Choose two masses and vary their separation, measuring the force between them each time. Plot a straight line graph and use the gradient to estimate the universal gravitational constant. Include uncertainties in the results and express values with the appropriate number of significant figures.
Im stumped...i could simply solve for G by inputing the variables i have (all except G) but i have to use the gradient of the graph.

Homework Equations


F= G*Mm/r^2
F=1/r^2

The Attempt at a Solution


i tried graphing Force vs 1/distance^2 and using the slope of it.
 
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Tony Manilla said:
Choose two masses and vary their separation, measuring the force between them each time.

i wonder how you will measure the force between the two chosen mass ?
 
It's a phet simulation but I figured it out. Just had to graph force vs inverse of distance squared and find the y intercept
 

Thread 'Errors and significant figures'

I multiplied the values first without the error limit. Got 19.38. rounded it off to 2 significant figures since the given data has 2 significant figures. So = 19. For error I used the above formula. It comes out about 1.48. Now my question is. Should I write the answer as 19±1.5 (rounding 1.48 to 2 significant figures) OR should I write it as 19±1. So in short, should the error have same number of significant figures as the mean value or should it have the same number of decimal places as...
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Thread 'A cylinder connected to a hanging mass'

Thread 'A cylinder connected to a hanging mass'

Let's declare that for the cylinder, mass = M = 10 kg Radius = R = 4 m For the wall and the floor, Friction coeff = ##\mu## = 0.5 For the hanging mass, mass = m = 11 kg First, we divide the force according to their respective plane (x and y thing, correct me if I'm wrong) and according to which, cylinder or the hanging mass, they're working on. Force on the hanging mass $$mg - T = ma$$ Force(Cylinder) on y $$N_f + f_w - Mg = 0$$ Force(Cylinder) on x $$T + f_f - N_w = Ma$$ There's also...
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