Problem 8: Superposition of electric fields from several charges A charge Q is located at cartesian...
The problem asks us to use superposition principle to calculate electric field due to two point charges: Charge q1=7.00 uC, at origin Charge q2 = -5.00 uC, 0.300 m from origin. Find magnitude and direction of the electric field at point P, which has coordinates (0, 0.400)m. I understand how to find magnitude, but am confused as to the direction. I know we need to find x and y-coordinates, but the solution in the book talks about adding the vectors...
A set of charges sit in the (x, y) plane. Charge q1 is 1nC and located at (0, 0). Charge q2 is -2nC and located at (1m, 0). Charge q3 is 2nC and located at (0, 1m) (a) Find the x and y components of the force of q1 on q3. (b) Find the x and y components of the force of q2 on q3. (c) Find the net force (that means magnitude and direction) on q3. Drawing Electric Fields...
You have four point charges. Their location and charges in Cartesian coordinates are: a positive charge, 2q, located at (a,0,0), another charge -2q located at (-a,0,0), a 3rd charge -q located at (0,0,b), and finally a fourth charge +5q located at (0,0,-b) (a) What is the total charge, and dipole moment, of this distribution of charges? Use the methods of "the multipole expansion" (Griffiths section 3.4.1) to find a simple approximate formula for V(r,0) (in spherical coordinates!) valid at points...
Two charges (dipole) of +q = +6.00 μC and −q = −6.00 μC along
the y-axis, separated by 3.00 m, as shown in the figure below.
Point P is located 4.00 m directly to the right of the positive
charge, as shown. The origin is located halfway between the
charges.
(a) At point P (test point), sketch and label the electric field
E+ due to the positive charge +q, and the electric field E - due to
the negative charge...
Problem 3 - Electric force and Electric field A charge Q1 = +9uC is located at the origin and a second charge Q2 = -4°C is placed at x = 8 m. a) [6 points) What will be the force (magnitude and direction) if you place a +16 C charge midway between the Qi and Q2? lu = 10-6, Coulomb's constant k = 9.0 x 10°N • m2/C2 b) [7 points] Calculate the net electric field (magnitude and direction) at...
Static Electric Fields problem
PLZ use Cartesian coordinates to slove.
I need details.
Determine the electric field intensity of an infinitely long, straight, line charge of a uniform density Pb in air. [Note: only use Cartesiah coordinates to slove? ZA dzik + 0 - - - - - N ot dez fig: An infinitely long, stratght, live charge Scanned with CamScanner
Problem 2 -Superposition Principle for electrie forces between point charges Two charges are positioned along the horizontal -axis. 6.0 uC is positioned in the origi 02 =-60 pC is positioned at x = 2.0 m. A third charge 03-3.0 pC is placed halfway betwe 01 and 02 (at the point x = 1.0 m). Compute: a) The magnitude of the net electric force acting on Q b) The direction of the net electric force acting on Q3. e) The electric...
Q1. MULTIPOLES - point charges You haye four point charges. Their location and charges in Cartesian coordinates are: A positive charge -2q located at (a,0,0), another charge -2q located at (-2,0,0), a 3rd charge -q located at (0,0,b), and finally a fourth charge +57 located at (0,0,-b) - What is the total charge, and dipole moment, of this distribution of charges? Use the methods of "the multipole expansion" (Griffiths section 3.4.1) to find a simple approximate formula for V(r,0) (in...
Problem 1 Charge Configuration Three charges are configured as shown. A 3.0 nC charge is located at the origin. A -5.0 nC charge is located at a point on the y axis 0.1 m from the origin. The third charge of 4 nC is located on the x axis at a distance of 0.3 m from the origin. a) What is the magnitude and direction of the electric field at the origin? b) What is the magnitude and direction of the force on...
Part A Two charges, +q and -q, are located in the x-y plane at points (0,+d/2) and (0,-d/2), respectively. Calculate the magnitude of the electric field at point P with the superposition principle. Data: q = 13.0 nC, d = 4.40 mm and P is at x = 88.0 mm. Part B In the previous problem, you can get an approximate answer for the electric field at point P by using the electric dipole approximation which is valid for the...