Two charges, Inc and -Inc are located at (1,2,0) x (3,9,1) respectively. Calculate the electric field at the origin
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Two charges, Inc and -Inc are located at (1,2,0) x (3,9,1) respectively. Calculate the electric field at the origin
We have to calculate here the electric fields at origin due to the 1 nc charge placed at (1,2,0) and due to the -1 nc charge placed at (3,9,1). After that we have to add these two fields to calculate the total electric field at the origin.
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- The electric field at a point in space is definedas the force per unit charge at that point inspace. We can write the electric field E ofa charge q at a distance d from that charge,experienced by a charge Q, asE =FQ= kqd2.The electric field has a direction such that itpoints toward negative charges and away frompositive charges. Suppose your rub a balloonin your hair and it acquires a static charge of−2 × 10−9 C.What is the magnitude of the electric fieldcreated by the balloon at a location 1 m duenorth of the balloon? Coulomb’s constant is9 × 109 N · m2/C2.Answer in units of N/C. You hair acquired an equal amount of positivecharge when you rubbed the balloon on yourhead.What is the strength of the electric fieldcreated by your head at the location of yourfeet, 1.5 meters below?Answer in units of N/C.(10%) Problem 4: A solid aluminum sphere of radius r! 0.038 m is charged with qi = +42 μC of electric charge. It is surrounded concentrically by a spherical copper shell of inner radius r2-0.065 m and outer radius r,-0.078 m. An electric charge of q,--9 5 μC is placed on the copper shell. The situation is statio Banchi, Stephen - banchis3@students.rowan.edu @ theexpertta.com - tracking id: 2N74-2F-82-4A-BAAB-13083. In accordance with Expert TA's Terms of Service. copying this information to any solutions sharing website is strictly forbidden. Doing so may result in termination of your Expert TA Account. 25% Part (a) Find the magnitude of the electric field, in newtons per coulomb, inside 25% Part (b) What is the magnitude of the electric field, in newtons per coulomb. 25% Part (c) Find the magnitude of the electric field, in newtons per coulomb, at a the aluminum ball inside the copper of the shell, i.e., at a radius r from the center such that r2 < r3? radius of 0.051 m from the…Hint:You will use a certain law in trigonometry twice. Answer must be 934,531 Newtons
- Given a charge Q1=50nC located at the XY coordinates (5m, 10m) and a charge Q2= -20nC located at the X, coordinates (-3m.-1m). The field point has coordinates (-3m, 4m). Find the Total Efield?q P -2q Two charges +q and -2q are placed on opposite corners of a square with side length 19 cm. The magnitude of q is 5.7 x 10-7 C. Calculate the magnitude of the electric field at the empty corner labeled P.Questions 8-10 refer to the figure below. 91 а 92 а а 94 а 93 8. Four charges q1 = of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on q1 due to q2, 93, and +Q, q2 = +Q, 93 = –Q, and q4 = -Q are in the corners of a square. The sides 4. A. ke (-0.65ây – 1.35g) C. kQ (0.65 + 1.35ŷ) В. К(-1.352 — 0.659) D. k (1.35â + 0.65ý) a2 a2 9. Four charges q1 = +Q, q2 = +Q, q3 = -Q, and q4 = -Q are in the corners of a square. The sides of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on 2 due to q1, 93, and q4. A. k (0.65â – 1.35ŷ) C. E(-0.65£ + 1.35ŷ) D. g(-1,35 + 0.65ý) Q² B. k (1.35â – 0.65ý) 10. Four charges q1 = +Q, q2 = +Q, q3 = -Q, and q4 = -Q are in the corners of a square. The sides of the square have a length a. In terms of ke, Q, and a calculate the electric force acting on q3 due to q1, 92, and q4. A. k(-0.65â – 1.35g) B. k(-1.35â – 0.65ŷ) D. ke (1.35€ + 0.65ŷ) С. К (0.65 + 1.35)