The electric potential at points in an xy plane is given by V=4x²-2y3 .What is the magnitude of the electric field at point (1m,2m)
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2 2 Зу The electric potential at points in an xy plane is given by V = 2x What are the magnitude and direction of the electric field at the point (3, 2) in meters? Select one: a. -12 with angle 30° b. -12 with angle 60° C.-12 with angle 135° d. 17 with angle 35 e. 17 with angle 65 O f. 17 with angle 135
A system of point charges includes q1= +1 microC at x1 = 2m, y1 =2m, q2= -1 microC at x2= -3m, y2= -3m, q3 = +3microC at the origin. A) what is the electric potential at location x = 1m, y = -1m? B) what is the electric potential energy Ue (i.e PE) of the system of charges? energy C) What is the electric field Ex and Ey components, magnitude E and directional angle at x=-2m, y= +3m?
2. An electric field is oriented in the positive x direction and has a magnitude E-2x. Find the potential at x = 10m if V = 24V at x = 3m. -14x -1Ho 3. Given two point charges located on the x axis, separated by a distance of 4m. The rightmost charge, located at x-2m, has a positive charge, q-8 and the leftmost charge, located at x-2m, has a negative charge,-q location(s) on the x axis where the electric potential...
The electric potential at points in an xy plane is givenby V = (2.9 V/m2)x2 -(2.7V/m2)y2. What are(a) the magnitude of the electric field at thepoint (3.4 m, 1.9 m) and (b) the angle that thefield there makes with the positive x direction.
The electric potential at points in an xy plane is givenby V = (3.0 V/m2)x2 -(3.8V/m2)y2. What are(a) the magnitude of the electric field at thepoint (4.3 m, 1.7 m) and (b) the angle that thefield there makes with the positive x direction.
Relationship Between Electric Potential and Electric Field (easier than it might seem at first glance - follow it step by step) (b) In a given region of space, the electric potential is described by V = (x2 + y2-62)-Volts. i. Determine the equations describing E,i, Eyj,and E,k in this region of space. (5 points) ii. What is the magnitude of the electric field at point P(4m,2m,3m)? (5 points) ii. Recall that for a given function, gx yz), the direction in...
1. A uniform electric field is shown below. Using the information given, answer the questions shown fai il lof lll c-(1m,2m) A-(-1m,2m) C=(1m,2m) B=(-1m, 1m) D=(1m-1m) (A) How does the electric fiend at A compare with the electric field at B? O EA <E. () EA> E. (ii) EA-E. (iv) Unable to determine (B) How does the electric field at B compare to the electric field at C? (1) E. <E (1) E, > Ec (iii) Es-Ec (iv) Unable to...
the electric field is given bt the equation E=2axi+Aj where A=1*10^4 V/m^2 how much work does the electric field do when a charge of 2μC is taken from point (0,0) to along the x(1,0) then parallel to the yaxis (1m,2m)? how much electrical work is done when the charge is moved along a straight line from (0,0) to (1,2m)? what is the equation for the electric potential of this field assuming the origin has a potential of zero? what is...
3. You have an infinite insulating plane of charge per unit area 3 C/m² that spans the whole xy plane. (a) Will the electric potential at a point 4 cm above the plane be higher or lower than the electric potential on the plane? What is the difference in electric potential between these two points? (b) Sketch (i) the electric field lines and (ii) the equipotential surfaces surrounding the plane. (c) Now say we cut away half of the plane...
The electric potential at points in an xy plane isgiven by V = (2.2 V/m2)x2-(3.7 V/m2)y2. What are(a) the magnitude of the electric field at thepoint (3.3 m, 2.6 m) and (b) the angle that thefield there makes with the positive x direction. (a) Number Units N/C or V/m (b) Number Units ° (degrees)