If the field points to the right in the figure, determine the magnitude of the point charge. Express your answer using two significant figures. Q=_______ C ?
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- p-1 Please I need help with this question needed very clearly and step by step explanation and NEEDED ONLY TYPED SOLUTIONS PLEASE NO HANDWRITTEN please, will be really appreciated for your help. NEEDED ONLY TYPED SOLUTIONS. A –8.0 mC and a +1.8 mC charge are placed 11.8 cm apart. Where can a third charge be placed so that it experiences no net force? Can the sign of this charge be either positive or negative?Needs Complete typed solution with 100 % accuracy.A charge Q is placed at the origin. Another charge q = - 1.0 μC is placed at point P=(5.0, -5.0) cm. The x component of the electric force that charge Q exerts on charge q is equal to 25.0 N. What is the value of Q? Express you answer in microcoulombs. Type your numeric answer and submit 6.96 ☑ You are incorrect
- Two charges, -Q and -3Q, are a distance apart. These two charges are free to move but do not because there is a third (fixed) charge nearby. Part A What must be the charge of the third charge for the first two to be in equilibrium? Express your answer in terms of Q and 1. IVE ΑΣΦ Q3: = Submit Part B X = Request Answer At what distance from - toward -3Q should the third charge be for the first two to be in equilibrium? Express your answer in terms of Q and 1. -- ΑΣΦ Submit ? Request Answer ?T Normal T No Spac... Heading 1 Heading 2 Title Paranta Styles 121 Edit A hollow conductor is shown in the picture. A net change of Qnet = -4µC has been added to the conductor. Qnet Once the charges distribute and reach equilibrium, what is the total charge on the inner boundary of the conductor?| (Ctrl) - O FocusFind the strength and direction of the force experienced by each charge depicted in the picture. charges are in one straight line. +Q = 10nC, -Q=-10nC and -q=-5nC. The distance between +Q and -Q is 1mm, The distance between -Q and -q is 5mm.
- A particle of mass 7.25 x 10-9 kg is moving 14.5 m/s in a field of 0.0393 T. It moves in a circle of radius 0.100 m. What is the charge of the particle? [?]×10?'C Coefficient (green) Exponent (yellow) EnterPls help me with the following question pls and make sure 100 % of your answer is correct A charge q1�1 = 5.00 nCnC is placed at the origin of an xy��-coordinate system, and a charge q2�2 = -3.00 nCnC is placed on the positive x� axis at x=�= 4.00 cm Part A If a third charge q3�3 = 5.00 nCnC is now placed at the point x=�= 4.00 cm , y=�= 3.00 cmcm find the x� component of the total force exerted on this charge by the other two charges. Express your answer in newtons. ( I got this right, which was -> 7.19 x 10^-5 N) Part B Find the y� component of the total force exerted on this charge by the other two charges. Express your answer in newtons. ( I got this one wrong like the rest, here I got -> -14.624 x 10^-5N)Pls help me explain what could be wrong Part C Find the magnitude of this force. Express your answer in newtons.( I got this answer and it was wrong-> 16.30 x 10^-5N) Part D Find the direction of this force. Express your answer in degrees. (I got this…please type the answer clearly Two identical conducting spheres, fixed in place, attract each other with an electrostatic force of 0.118 N when their center-to-center separation is 57.7 cm. The spheres are then connected by a thin conducting wire. When the wire is removed, the spheres repel each other with an electrostatic force of 0.0463 N. Of the initial charges on the spheres, with a positive net charge, what was (a) the negative charge on one of them and (b) the positive charge on the other? (Assume the negative charge has a smaller magnitude.)
- Either all parts or none, asap plxxxDiagram of the problem, necessary formulas, clearance and numerical solution. Two small spheres have a center-to-center separation of 1.5 m. They carry identical charges. Approximately how large is the charge on each if each sphere experiences a force of 2 N?.You Answered Correct Answer A line of charge is placed along the negative x axis from x=-0.4m to x=0. The charge is uniformly distributed with linear charge density 3.06pC/m. A proton is released from rest at a point on the positive x axis 2.53m. When the proton has a speed of 472.1m/s, how far will it have moved (in m}? 1.0975 margin of error +/-1%