Three identical charges ( q= -5.0NC) lie along a circle of radius 2.0m at angles 30°,150° and 270°. What is the resultant electric at the centre of the circle
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Three identical charges (q = +5.0mC) are along a circle with radius of 2.0m at angles of 30, 150, and 270 degrees. What is the the resultant electric field at the center?
Three point charges lie along a circle of radius r at angles of 30°, 150°, and 270° as shown in Figure P23.26. Field at the conler ofpte cirto the resultant electric 15004 270° Figure P23.26
QUESTION 3 Three point charges lie along a circle of radius r = 3.00 cm: q: -7.00 nC at angle 30°. 92-9.00 nCatanpe 180", and 9 -7.00 nC 330° as shown in the figure. Find the magnitude E of the electric field created by the three charges at the center of the circle. 91 7800 30° x 330° 93 E = 1.60 x 105 N/C E = 8.00 x 104N/C E = 2.00 x 10' N/C E = 1.14 x...
A uniformly charged rod (length=2.0m, charge per unit length=5.0nC/m) is bent to form one quadrant of a circle. What is the magnitude of the electric field at the center of the circle? answer: 50N/C please show all your steps
4. Two point charges, A and B are located on a circle with radius R as seen below. B is fixed but A can be moved around. If q,-+390 and q,-%-at what angles θ can charge A be placed in order fort the net electric field produced by both charges at the center of Ли the circle to have a magnitude of E the electric fields and their components. 0 ? Please draw a neat diagram illustrating х.
Consider a system of three charges q/3,q/3, and −2q/3 placed at points A,B, and C respectively, as shown in the figure. Take O to be the centre of the circle of radius R and angle CAB=60 What is the magnitude and direction of the electric field at O? A) kq/3R^2 i B) 2Kq/3R^2 i C) -kq/3R^2 i D) -2kq/3R^2 i E) the electric field is zero at point O. VI 60 10
Question Completion Status: QUESTION 3 2 points Three point charges lie along a circle of radius 2.00 cm: q: -- 12.0 nC at angle 30.9,- +8.00 nC at angle 180, and , +12.0 nC at angle 330 as shown in the figure. Find the magnitude e of the electric field created by the three charges at the center of the circle. V 9: 180° 300 330 9 E = 72.0 x 10' N/C E = 32.4 x 10' N/C E...
Question1 Charge +Q +1.10 nC is uniformly distributed along the right half of a thin rod bent into a semicirle of radius R- 3.20 cm, while charge Q1.10 nC is uniformly distributed along the left half of the rod, as shown in the figure. What is the magnitude of the electric field at point P the centre of the circle? Magnitude:
Exercise 15.1 (page 392) Three charges lie along the x-axis. A positive charge q1 -10 C is at x-1 m, and a negative charge q2- 2uC is at the origin. Where must a positive charge q3 be placed on the x-axis so that the resultant force on it is zero? Exercise 15.2 (Page 394): Using the same triangle,find the vector components of the electric force on q and the vector's magnitude and direction.