B4 A bowling ball (mass = 5.4 kg, radius= 0.11 m) and a billiard ball (mass = 0.38 kg,radius = 0.028 m) may each be treated asuniform spheres. What is the magnitude ofthe maximum gravitational force that eachcan exert on the other?NumberiUnits✪The drawing shows three particles far awayfrom any other objects and located on astraight line. The masses of these particlesare mA = 326 kg, mB = 510 kg, and mc=194 kg. Take the positive direction to be tothe right. Find the net gravitational force,including sign, acting on (a) particle A, (b)particle B, and (c) particle C.ABC0.500 m(a) Number i 5(b) Number i(c) Number0.250 mUnitsUnits ✪Units"

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A bowling ball (mass = 5.4 kg, radius = 0.11 m) and a billiard ball (mass = 0.38 kg, radius = 0.028 m) may each be treated as uniform spheres. What is the magnitude of the maximum gravitational force that each can exert on the other?

A bowling ball (mass = 5.4 kg, radius = 0.11 m) and a billiard ball (mass = 0.38 kg, radius = 0.028 m) may each be treated as uniform spheres. What is the magnitude of the maximum gravitational force that each can exert on the other?

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Question

A bowling ball (mass = 5.4 kg, radius
= 0.11 m) and a billiard ball (mass = 0.38 kg,
radius = 0.028 m) may each be treated as
uniform spheres. What is the magnitude of
the maximum gravitational force that each
can exert on the other?
Number
i
Units
✪
The drawing shows three particles far away
from any other objects and located on a
straight line. The masses of these particles
are mA = 326 kg, mB = 510 kg, and mc
=
194 kg. Take the positive direction to be to
the right. Find the net gravitational force,
including sign, acting on (a) particle A, (b)
particle B, and (c) particle C.
A
B
C
0.500 m
(a) Number i 5
(b) Number i
(c) Number
0.250 m
Units
Units ✪
Units
"

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