Accelaration of a sphere being aimed at a point charge

AI Thread Summary
The discussion revolves around calculating the acceleration of a sphere with a charge of 2.00μC, fired towards a fixed point charge of 15μC. The user initially attempted to use the formula for electric force but struggled with determining the correct distance at the moment the sphere's speed is 26.0 m/s. Participants suggested using conservation of energy to find the sphere's new distance at that speed. Clarification was also provided regarding the correct unit for charge, confirming it should be microcoulombs (μC) instead of microfarads (μF). The conversation emphasizes the importance of accurately determining the distance to solve for acceleration.
lukeharvey
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A point charge q_{1}=15\muF is held fixed in space. From a horizontal distance of 4.00cm , a small sphere with mass 4.00\times10^{-3}kg and charge q_{2}=2.00\muF is fired toward the fixed charge with an initial speed of 43.0m/s. Gravity can be neglected.

What is the acceleration of the sphere at the instant when its speed is 26.0m/s?

Attempt at the problem

I used F = (Ke X Q1 X Q2) / (r^2)

and then used Ae=Fe/Me

However this is wrong. Does anyone have any ideas which could help me? Thanks
 
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lukeharvey said:
I used F = (Ke X Q1 X Q2) / (r^2)
What did you use for the distance r? That's the first step: find out where the sphere will be when it reaches the given speed. (Hint: Consider energy.)

Also: what kind of unit is μF? Did you mean μC?
 
Yeah sorry i meant μC and i used the horizontal distance given.
I take it i should use conservation of energy to find the new distance when it reaches the given speed?
 
lukeharvey said:
I take it i should use conservation of energy to find the new distance when it reaches the given speed?
Exactly.
 

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