1) Find the electric field vector E at point P= (0,-a). (Calculate the magnitude and draw the vector).
2) Sketch the electric field lines.
3)Find out the location (x,y) where the electric field E becomes 0.
1) Find the electric field vector E at point P= (0,-a). (Calculate the magnitude and draw...
e) Find the electric Field vector at point (0, +a) (Calculate the magnitude, and draw the vector.) f Sketch the electric field lines. g) Find the electric Field at (x, 0) for「a. h) Find out the location (x, y) where the electric Field E becomes zero. (Hint: Use the solution of e).) +4Q -Q
e) Find the electric Field vector at point (0, +a) (Calculate the magnitude, and draw the vector.) f Sketch the electric field lines. g) Find the electric Field at (x, 0) for「a. h) Find out the location (x, y) where the electric Field E becomes zero. (Hint: Use the solution of e).) +4Q -Q
+4 +Q a. Find the electric Field vector E at point P (0, +a). (Calculate the magnitude, and draw b. c. d. the vector in the picture.) Sketch the electric field lines. Find the electric Field E at (x, 0) for x >a Find out the location (x, y) where the electric Field E becomes zero. (Hint: Use the solution of e).
P (0, +a) +40 +Q Calculate the magnitude of the force F acting on +Q, and on +4Q. a. b. Draw the force vector F on +Q, and on +4Q Find the electric Field vector E at (x, y)-(0, 0) and draw it. c. d. If the third charge Qo is placed at (x, y)-(0, 0), what is the force vector F acting on Qo? (Magnitude and direction) e. Find the electric Field vector E at point P (0, +a)....
Place a charge of -9.40 µC at point P and find the magnitude and direction of the electric field at the location of q2 due to q1 = 6.95 µC and the charge at P. Magnitude N/C Direction (b) Find the magnitude and direction of the force on q2. Magnitude n/C Direction Eg 0.400 m 0.500 m 0.300 m 42 The resultant electric field E at P equals the vector sum E, E where E, is the field due...
3. Consider the electromagnetic wave k=(0.2) where .A Draw the electric field E, magnetic field B and Poynting vector S at the points = (x, y, z) that fulfill: a) th when t-0. - e condition-k = 0 Side view 3D view b) the condition F. k-2 when t-o. Side view 3D view 3.B Calculate the wavelength λ of the wave (6). Compare the magnitude of λ with the magnitude of k. 3.C Wave (6) is expressed in terms of...
10. 2 points SerCP11 15.5.P.034 The figure below shows the electric field lines for two point charges separated by a small distance. 12 91 (a) Determine the ratio q1/q2 (b) What are the signs of q1 and q2? q1 is positive. 1 is negative. 42 is positive. q2 is negative. 11. -12 points SerCP11 15.5.P.035. (a) Sketch the electric field lines around an isolated point charge q>0. (Submit a file with a maximum size of 1 MB.) Choose File No...
The figure shows two point charges. Calculate the magnitude of the electric field at point P. Use the following data: Q1-+ 1.90 μC, Q2= + 1.50 μC, di- 1.40 m, d2- 1.80 m. Q, P0 "X Submit Answer Tries 0/12 Calculate the size of the force on a charge Q =-1.20 pC placed at P due to the two charges from the previous problem.
The figure shows two point charges. Calculate the magnitude of the electric field at point P. Use the following data: Q1= + 1.60 pC, Q2= +1.40 HC, d1- 1.50 m, d2- 1.60 m Q, P 2 2 Submit Answer Tries 0/12 Calculate the size of the force on a charge Q =-1.30 μC placed at P due to the two charges from the previous problem. Submit Answer Tries 0/12