Test Charge Explained: Why Positive & Can't Assume Negative

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A test charge is always considered positive to standardize the direction of the electric field, which is defined as the force experienced by a positive charge. Using a negative test charge would reverse the direction of the force but not the direction of the electric field itself. The electric field points radially outward from positive charges and inward toward negative charges. The direction of the electric field is determined by the force on a positive test charge, maintaining consistency in its representation. Ultimately, the established convention ensures clarity in understanding electric fields and their interactions.
JLABBER
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Why a test charge is always positive. WHy can't we assume the test charge to be negative?
Just that if we assume it to be negative test charge, will the electric field turns to be negative?

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reply: does it mean that if we put a negative charge as a test charge near a positive charge source, it shows that the positive charge actually exerts a field pointing inward? before, if we put a positive charge near a positive source, it means field radially outward, how if we change the test charge to a negative charge?
 
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If you use a negative test charge, the direction of the field will be opposite to the direction of the force on that charge. With a positive test charge, the field and force are in the same direction.
 
But, i don't really get your meaning. suppose a positive source located at origin. A positive test charge is put at distance x from the source. Then , the force on it is towards positive x-axis and the field also. The condition reverses if we use a negative test charge? BUt , isn't the test charge is used to determine the direction of the electric field alone? I thought that if a test charge is used, it can show only the direction of flow of electric field?
 
JLABBER said:
But, i don't really get your meaning. suppose a positive source located at origin. A positive test charge is put at distance x from the source. Then , the force on it is towards positive x-axis and the field also.
Correct.
The condition reverses if we use a negative test charge?
What changes is the direction of the force, not the field.
BUt , isn't the test charge is used to determine the direction of the electric field alone? I thought that if a test charge is used, it can show only the direction of flow of electric field?
A test charge is used to determine the direction of the field, but it doesn't change the field. If you use a positive test charge, the force points in the direction of the field; if you use a negative test charge, the force opposes the field. The direction of the field doesn't change.
 
Ok, i know this statement. Then , what i confuse is then if the test charge is used to determine the direction of force, then it certainly cannot proof the direction of field. Therefore, what i want to know is what can show that electric field is from positive to negative?
 
JLABBER said:
Ok, i know this statement. Then , what i confuse is then if the test charge is used to determine the direction of force, then it certainly cannot proof the direction of field. Therefore, what i want to know is what can show that electric field is from positive to negative?

I think it is simply a standard to consider the direction of the field from positive to negative.

From here: http://hyperphysics.phy-astr.gsu.edu/hbase/electric/elefie.html
The direction of the field is taken to be the direction of the force it would exert on a positive test charge. The electric field is radially outward from a positive charge and radially in toward a negative point charge.

In the end it doesn't matter what we label as the direction as long as the produced effects are the same.
 
ok.well thanks a lot...
 
JLABBER said:
ok.well thanks a lot...

Anything else you are confused about?
 
Well, if i do, i will seek your help again.ThanKS a lot!
 
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