49. (a) Find the electric field at the location of q, in Figure 18.54, given that q, = qb = gc = -4.5µC, and the distance between each charge on this equilateral triangle is d = 27.4m. (Enter the magnitude answer with proper units and in calculator notation: 3.00X108 m/s entered as 3.0OE8*m/s.) (b) What is the force on q.? (Enter the magnitude answer with proper units and in calculator notation: 3.00X108 m/s entered as 3.00E8*m/s.) Figure 18-54. Answer Electric Field: Answer Force on q
49. (a) Find the electric field at the location of q, in Figure 18.54, given that q, = qb = gc = -4.5µC, and the distance between each charge on this equilateral triangle is d = 27.4m. (Enter the magnitude answer with proper units and in calculator notation: 3.00X108 m/s entered as 3.0OE8*m/s.) (b) What is the force on q.? (Enter the magnitude answer with proper units and in calculator notation: 3.00X108 m/s entered as 3.00E8*m/s.) Figure 18-54. Answer Electric Field: Answer Force on q
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Transcribed Image Text:49. (a) Find the electric field at the location of q, in Figure 18.54, given that qa = 96 = gc = -4.5µC, and the distance between each charge on
this equilateral triangle is d = 27.4m.
(Enter the magnitude answer with proper units and in calculator notation: 3.00X108 m/s entered as 3.00E8*m/s.)
(b) What is the force on qa?
Rag
(Enter the magnitude answer with proper units and in calculator notation: 3.00X108 m/s entered as 3.00E8*m/s.)
Figure 18-54.
Answer Electric Field:
Answer Force on q
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