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up y y Fig. 1(a). Fig. 1(b). k = 8.987 × 10ºN•m² /C² g=9.8m/s², G = 6.67 × 10-11m³ · kg -1 -2 •S R= 6400, 000 m. Consider two charges q1 = 2 mC (mC stands for milli-coulomb) and q2 = -9 mC with coordinates given by (-2, 2) and (3, 3), respectively. (See figure 1a. Figure is not drawn to scale). (d) Find the electric field at the origin O due to q1 and q2. Give your answer in N/C. (e) If we place another charge qo = +2.5µC at the origin O (see fig. (1b)) find the force on qo charge due to the electric field generated by q1 Here 1µC = 1 micro coulomb = 10-6C. Give your answer in N. and 92.

up y y Fig. 1(a). Fig. 1(b). k = 8.987 × 10ºN•m² /C² g=9.8m/s², G = 6.67 × 10-11m³ · kg -1 -2 •S R= 6400, 000 m. Consider two charges q1 = 2 mC (mC stands for milli-coulomb) and q2 = -9 mC with coordinates given by (-2, 2) and (3, 3), respectively. (See figure 1a. Figure is not drawn to scale). (d) Find the electric field at the origin O due to q1 and q2. Give your answer in N/C. (e) If we place another charge qo = +2.5µC at the origin O (see fig. (1b)) find the force on qo charge due to the electric field generated by q1 Here 1µC = 1 micro coulomb = 10-6C. Give your answer in N. and 92.

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up y y Fig. 1(a). Fig. 1(b). k = 8.987 × 10ºN•m² /C² g=9.8m/s², G = 6.67 × 10-11m³ · kg -1 -2 •S R= 6400, 000 m. Consider two charges q1 = 2 mC (mC stands for milli-coulomb) and q2 = -9 mC with coordinates given by (-2, 2) and (3, 3), respectively. (See figure 1a. Figure is not drawn to scale). (d) Find the electric field at the origin O due to q1 and q2. Give your answer in N/C. (e) If we place another charge qo = +2.5µC at the origin O (see fig. (1b)) find the force on qo charge due to the electric field generated by q1 Here 1µC = 1 micro coulomb = 10-6C. Give your answer in N. and 92.
Transcribed Image Text:up y y Fig. 1(a). Fig. 1(b). k = 8.987 × 10ºN•m² /C² g=9.8m/s², G = 6.67 × 10-11m³ · kg -1 -2 •S R= 6400, 000 m. Consider two charges q1 = 2 mC (mC stands for milli-coulomb) and q2 = -9 mC with coordinates given by (-2, 2) and (3, 3), respectively. (See figure 1a. Figure is not drawn to scale). (d) Find the electric field at the origin O due to q1 and q2. Give your answer in N/C. (e) If we place another charge qo = +2.5µC at the origin O (see fig. (1b)) find the force on qo charge due to the electric field generated by q1 Here 1µC = 1 micro coulomb = 10-6C. Give your answer in N. and 92.
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