Question

In: Physics

The coordinates of a point P in the x-y plane are (2;3) meters. q1 = 10...

The coordinates of a point P in the x-y plane are (2;3) meters. q1 = 10 C load (1;0) , q2 = 20 C load (-1;0) is placed in the metre position. The electric flied formed by these charges at the P point, find your size and direction.

Solutions

Expert Solution

Summary: I applied formula to calculate rhe electric field due to both charges at point P. Then I calculated the net field at that point.

genius_generous answered 2 years ago
Next > < Previous

Related Solutions

Find the coordinates of the point (x, y, z) on the plane z = 4 x...
Find the coordinates of the point (x, y, z) on the plane z = 4 x + 1 y + 4 which is closest to the origin.
The following charges exist (given coordinates are (x, y) coordinates in the plane of the page):
  The following charges exist (given coordinates are (x, y) coordinates in the plane of the page): • a −3.0 µC point charge located at (0, 0) • a −2.0 µC uniform spherical shell of charge of radius 3.0 cm centered at (+4.0 cm, 0) • a +2.0 µC uniform spherical shell of charge of radius 2.0 cm centered at (0, −4.0 cm) • a +4.0 µC uniform spherical shell of charge of radius 4.0 cm centered at (−1.0 cm,...
In the accompanying figure (Figure 1), the X and Y coordinates (in meters) of station A...
In the accompanying figure (Figure 1), the X and Y coordinates (in meters) of station A are 1007.673 and 1869.166, respectively, and those of station B are 1565.021 and 648.185, respectively. Angle BAP was measured as 308∘56′39′′ and angle ABP was measured as 58∘53′30′′. What are the coordinates of station P?
A circle with a radius of 0.3 meters is placed in the x-y plane in a...
A circle with a radius of 0.3 meters is placed in the x-y plane in a magnetic field directed in the -z direction. It is wound once and its resistance is 8 Ohms. The initial magnetic field is 0.5 Tesla. The magnetic field is then changed in 0.7 s and the average induced current is 0.05 amps running counter-clockwise. First, find the final magnetic field to needed to induce this average current. Then, the magnetic field (still in the -z...
#2a.Three point charges are located in the x-y plane. q1 = -42.6 nC at (0.00, +3.60...
#2a.Three point charges are located in the x-y plane. q1 = -42.6 nC at (0.00, +3.60 cm), q2 = +45.4 nC at (-6.80 cm, 0.00) and q3 = -28.4 nC at (+8.20 cm, -9.40 cm). Determine the x component of the net electric field at the origin (0.00 m, 0.00m), due to the charges. Give your answer in the form "[+/-a.bc x 10^(x) N/C]i". Note that i is the unit vector in the x direction. #2b. Determine the y component...
1) A circle with a radius of 0.3 meters is placed in the x-y plane in...
1) A circle with a radius of 0.3 meters is placed in the x-y plane in a magnetic field directed in the -z direction. It is wound once and its resistance is 6 Ohms. The initial magnetic field is 0.8 Tesla. The magnetic field is then changed in 0.6 s and the average induced current is 0.04 amps running counter-clockwise. First, find the final magnetic field to needed to induce this average current. Then, the magnetic field (still in the...
1) A circle with a radius of 0.3 meters is placed in the x-y plane in...
1) A circle with a radius of 0.3 meters is placed in the x-y plane in a magnetic field directed in the -z direction. It is wound once and its resistance is 7 Ohms. The initial magnetic field is 0.6 Tesla. The magnetic field is then changed in 0.7 s and the average induced current is 0.05 amps running counter-clockwise. First, find the final magnetic field to needed to induce this average current. Then, the magnetic field (still in the...
1. Consider placing two point charges on an x-y plane, the first charge, q1, at (x1,...
1. Consider placing two point charges on an x-y plane, the first charge, q1, at (x1, y1), and the second charge , q2, at (x2, y2). 2. Derive an expression for the electric potential and field at any arbitrary point (x, y) in terms of q1, q2, x1, x2, y1 and y2. 3. Choose some reasonable values for q1, q2, x1, x2, y1 and y2 and make a rough sketch of what you expect the electric potential/field to look like....
in C++ Write a definition for a class ‘point’ to describe a point with coordinates (X,Y)...
in C++ Write a definition for a class ‘point’ to describe a point with coordinates (X,Y) in 2-D space. The private data members are the coordinates X and Y of type ‘double’. The public member functions are: A default constructor (no parameters) to initialize X and Y to zero. An explicit value constructor with two parameters to initialize the values of X and Y. Two functions, one to set the X value and the other to set the Y value...
A positive point charge Q1=2.8×10−5C is fixed at the origin of coordinates, and a negative point...
A positive point charge Q1=2.8×10−5C is fixed at the origin of coordinates, and a negative point charge Q2=−4.1×10−6C is fixed to the x axis at x=+2.0m. Find the location of the place(s) along the xx axis where the electric field due to these two charges is zero.
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT