Find the potential at location r= xx + yy+ zz due to the charges listed here
xx=50 yy=27 zz=69
Question: 03 (8 Points) Note that xx , yy 12, and zz can be found as follows: If your PMU student ID number is 201502675, then xx = 50 12, yy = 262, and zz = 750 xx zz (Important note: Use your student ID to find the values of xx, yy, and zz as explained above irrespective of the ID digits) Find the current 'I' in the circuit shown in Figure 3. 20 V + 1...
A point charge q1q1 = -4.00 nCnC is at the point xx = 0.60 mm, yy = 0.80 mm , and a second point charge q2q2 = +6.00 nCnC is at the point xx = 0.60 mm , yy = 0. A) Calculate the magnitude of the net electric field at the origin due to these two point charges B) Calculate the direction of the net electric field at the origin due to these two point charges
13. Provide the coordinates (use <xx,yy, zz notation) for points A, B, C, and D in terms of the x, y, andz locations relative to the coordinate system origin. 30 ft 14. What is the distance from A to C in problem 13? 10 ft 15. What is the angle between cable AB and the pole B (AE) in problem 13? 16. What are the distances from B to C in problem 13? 17. What are the distances from C...
Please help solve 13-17 please
13. Provide the coordinates (use <xx,yy,zz>notation) for points A, B, C, and D in terms of the x, y, and z locations relative to the coordinate system origin for the system shown. (4 points) 14. What is the distance from A to D in problem 13? (2 points) 15. What is the angle between cable AB and the AC in problem 13? (3 points) 6 m 16. What is the distance from B to C...
a) Find the electric potential difference in going from location
R to location S.
b) Find the direction of the electric field at location RR in
Fig. 2. Note that the electric field is always perpendicular to the
contour lines. Give the direction as an angle (in degrees, measured
anticlockwise from the x-axis).
0.5 1.5 2.5 2.5 1.5 0.5 voltages in volts 2 3 3 2 1 0 FIGURE 2 CRN v 5.0 volts 6.0 volts W 7.0 volts. 40...
The electric potential at point P due to the point charges q1 and q2 is the algebraic sum of the potentials due to the individual charges. Suppose a charge of -2.50 μC is at the origin and a charge of 3.10 μC is at the point (0, 3.00) m. (a) Find the electric potential at (4.00, 0) m, assuming the electric potential is zero at infinity. (b) Find the work necessary to bring a 3.80 μC charge from infinity to the point (4.00,...
The potential due to a few charges at one point can be found by adding the potential due to each individual charge. It is easy to add them, because potential is a scalar and can be added directly (without considering directions and angles). True or False? The total potential energy due to a few charges can be found by adding the potential energy due to each PAIR of point charges. True or False? In Sample 25.3. the system's potential energy...
Find the eletric field at the origin due to R,T and S, which
have charges of 5.00 x 10^-9, -6.00x10^-9 and 7.00x10^-9C
respectively. (The origin is where the two lines intersect)
Find the electric field at the origin due to R,T and S, which have charges of 5.00 x 10^-9, -6.00x10^-9 and 7.00x10^-9C respectively. (The origin is where the two lines intersect)
Find the location of a point between the two charges where the
electric field vanishes.
Suppose you have two charges q 3 nC and q2 1.5 nC located along Find the location of a point between the two charges where the electric field vanishes Let gi sit at z= 0 with the distance between the charges be 1.5 m. the r-axis
r Noles Ask Your The potential at location A is 400 V. A positively charged when released from rest from this spot, the particle arrives at B w is released there from rest and arrives at location 8 with a speed ve The potential at location C is 783 V and th twice the speed it previously had, or 2vs. Find the potential at B.