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Question 1 (1 point) What is the surface integral of d.A in m of a sphere of radius (3.47x10*1) cm? Note: Your answer is assumed

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Question 1 (1 point) What is the surface integral of d.A in m of a sphere of radius (3.47x10*1) cm? Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer Question 2 (1 point) Saved The potential difference between two points is 100 V. These points are separated by 0.5 m. If a particle with a charge of 2 C is moved from one of these points to the other, the magnitude of the work done is: O 2 J 100 V 100 J 50J 200 JQuestion 3 (1 point) How does the addition of a dielectric NOT affect a parallel plate capacitor? O It decreases the capacitance of the capacitor It stores energy in the dielectric by polarization It usually increases the dielectric strength and increases the breakdown Voltage It allows more charge to be held on the plates at a given potential It lowers the overall electric field between the charge plates Question 4 (1 point) If the electric potential is constant in a region of space, what can you say about the electric field? It must be the same constant It must be decreasing O It must be zero Question 5 (1 point) Calculate the potential in volts at a distance of (4.520x10*0) m from a point charge of (-6.6x10*0) HC, if the point charge is inside a dielectric material with a dielectric constant k = (1.750x10^0) Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 AnswerQuestion 6 (1 point) Calculate the potential in volts at a distance of (7.3x10*0) um from a point charge of (-5.020x10*0) HC. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer Question 7 (1 point) Charges Q1 =(-7.300x10*0) nC and Q2 =(-1.7x10*0) nC are distances r1 = (2.40x10*0) m and r2 - (2.300x10*0) m from point P respectively. Calculate the potential in volts at point P. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10Question 8 (1 point) Q1. 11 P 12 Q2 Charges Q1 =(-8.090x10*0) nC and Q2 =(-8.1x10^0) nC are distances r1 = (3.00x10*0) m and r2 = (8.300x10*0) m from point P respectively. Calculate the potential in volts at point P, if the charges are in a dielectric material, with a dielectric constant k = (2.28x10*0). Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: *10 Answer Question 9 (1 point) Three identical charges Q = (2.36x10^-9) C lie at corners of a square of side (1.5x10*0) metres. Calculate the potential in volts at the centre of the square. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 AnswerQuestion 10 (1 point] A parallel plate capacitor has a surface charge density of o = {201.10%} qumz. Calculate the potential difference between the plates in V. if there is a dielectric material with dielectric constant K = (1.16:10A'l} between the plates. which are {7.940x10\"0] mm apart. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: please finish the above 10 questions, i had one question left so i had to put them all underone, please make sure your digit of precision are correct, it should be one digit of precision. include your oaloulations please and make sure your answers are 100% right because i need 9096+ to pass this test, so plz make sure you double check your answer. answer all 10 questions and i will upvote and send a positive review about you to course hero

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