correct answer is ..............c ............. to the right of negative charge
a point at the right of negative charge force due to q2, and force due to q1 are opposite direction
Consider the charges shown. Where could you place a small positive test charge (like a proton)...
Two point charges have identical charge amount and are positive. A positive test charge +q is placed as shown, equidistant from the two charges. What is net force direction on this charge? O Up Down Left O Right O Zero
As shown in the figure, a proton is at the origin and an unknown charge is at x = +4.0 nm. If the net electric force on a small positive test charge is zero at x = -3 nm, what is the magnitude and sign of the unknown charge? test charge a proton unknown charge Q X=-3 nm x=0 X=+4 nm +0.19e -0.19e O +5.40 -5.4 -2.7e
As shown in the figure, a proton is at the origin and an unknown charge is located at x = -1.5 nm. If the net electric force on a small positive test charge is zero at x -+3.0 nm, what is the magnitude and sign of the unknown charge? unknown charge Q proton test charge a x=-1.5 nm x=0 x=+3 nm O 0.44e +0.44 0 -2.25e O +225e 0 -1.13e
As shown in the figure, a proton is at the origin and an unknown charge is located at x = -1.5 nm. If the net electric force on a small positive test charge is zero at x = +3.0 nm, what is the magnitude and sign of the unknown charge? unknown charge Q proton test charge 9 X=-1.5 nm x=0 X=+3 nm -0.44e O +0.44e -2.25e 0 +2.25e O -1.13e
As shown in the figure, a proton is at the origin and an unknown charge is at x = +4.0 nm. If the net electric force on a small positive test charge is zero at x = -3 nm, what is the magnitude and sign of the unknown charge? test charge q unknown charge Q proton X=-3 nm x=0 x=+4 nm O +0.19e 0 -0.19e O +5.4e O -5.4e 0 -2.7e
As shown in the figure, a proton is at the origin and an unknown charge is located at x = -1.5 nm. If the net electric force on a small positive test charge is zero at x = +3.0 nm, what is the magnitude and sign of the unknown charge? unknown charge Q proton test charge q x=-1.5 nm x=0 x=+3 nm -0.44e +0.44e -2.25e +2.25e O-1.13e
As shown in the figure, a proton is at the origin and an unknown charge is located at x = -1.5 nm. If the net electric force on a small positive test charge is zero at x = +3.0 nm, what is the magnitude and sign of the unknown charge? unknown charge Q proton test charge 9 mo x=-1.5 nm x=0 x=+3 nm -0.44 +0.44e O-2.25e 0 +2.25e O -1.13e
As shown in the figure, a proton is at the origin and an unknown charge is located at x = -1.5 nm. If the net electric force on a small positive test charge is zero at x = +3.0 nm, what is the magnitude and sign of the unknown charge? unknown charge Q proton test charge q X=-1.5 nm x=0 X=+3 nm 0 -0.44e O +0.44e 0 -2.25e O +2.25e 0 -1.13e
As shown in the figure on the left, a positive test charge placed exactly halfway between a ball of charge +Q and a second ball of unknown charge experiences a net force directed right. When the second ball is removed from the situation, as in the figure on the right, the force experienced by the test charge increases by a factor of 1.60. What is the sign and magnitude of the charge on the second ball?Please explain how you got...
2. Two charges are separated by 1.2 m as shown in the diagram. 1.2 m -3.0 pC a. (5 points) Explain why the net electric field from these two charges could or could not be zero i. to the left of the negative charge, ii. between the two charges, and iii to the right of the positive charge. (10 points) Find the point where the net electric field from these two charges is zero (besides infinitely far away). Express your...