Finding magnitude of gravitational force?

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To find the magnitude of the gravitational force on a 30 kg sphere at the origin due to three other spheres, first calculate the distance (r) from the origin to each sphere using the Pythagorean theorem. The gravitational force (F) for each sphere can be calculated using the formula F = (GMm)/r^2, where M is the mass of the other sphere and m is 30 kg. After calculating the force for each sphere, determine the direction of each force vector, as they will have both magnitude and direction. Finally, sum the forces vectorially to find the overall gravitational force acting on the sphere at the origin. This process will yield the total gravitational force experienced by the 30 kg sphere.
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The masses and coordinates of three spheres are as follows: 16 kg, x = 0.75 m, y = 3.00 m; 34 kg, x = -2.50 m, y = -2.75 m; 60 kg, x = 0.00 m, y= -0.75 m. What is the magnitude of the gravitational force on a 30 kg sphere located at the origin due to the other spheres?

Homework Equations


i know to use this equation:F=(GMm)/r^2


i know you have to do a^2+b^2=c^2 to find the radius of each sphere but i just don't know what to do after that...
 
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The 'r' in the equation is the distance between the (centres) of the sphere it's not their radius

(we use 'r' in the law because it's usually the radius of an orbit 0
 
alright well if i find r then what do i do next?
 
Find 'F' for each object, then the overall direction/magnitude of F ( a diagram might help)
 
im still confused. when i find the distance what do i use as the second mass in the equation. and when i find F for all three spheres how do i find the gravitational force for the sphere at the origin?
 

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