A charge of 2 C (Coulomb) is placed 1000 meters from a charge of 1 C.
Use F = k q 1 q 2 r 2 and k = 9 x 10 9 N m 2 C 2
to find the force between them
The answer is in the image.
A charge of 2 C (Coulomb) is placed 1000 meters from a charge of 1 C....
Question 7 A charge of 2 C (Coulomb) is placed 1000 meters from a charge of 1 C. 9192 Use F k and k 9 x 10° N p2 to find the force between them O 4.5 x 10^15 O 18,000 or 18 x 10^3 O 2.22 x 10^-9 90000 or 9 x 10^4 tinn
D Question 9 8.75 pts A charge of 2 C (Coulomb) is placed 1000 meters from a charge of 1 C. Use F = k 9192 -and k p2 9 x 109 N to find the force between them 90000 or 9 x 10^4 18,000 or 18 x 10^3 2.22 x 10^-9 4.5 x 10^15 Question 10 8.75 pts What is the unit for electric power? Ampere Watt Newton OC Joule
Question (part 1 of 2) Two identical conducting spheres are placed with their centers 0.5 m apart. One is given a charge of +1.1 x 10-8 C and the other a charge of-1.6 x 10-8C Find the magnitude of the electric force exerted by one sphere on the other The value of the Coulomb constant is 8.98755 x 10 N m2/C2. Answer in units of N Your response.. Submit answer Question (part 2 of 2) The spheres are connected by...
1. A total charge of 3.35 C is distributed on two metal spheres. When the spheres are 10.00 cm apart, they each feel a repulsive force of 4.5*10^11 N. How much charge is on the sphere which has the lower amount of charge? 2. 2 equal charges, 15 micro Coulomb each, are separated by 5 cm. Find force between those. 3. Add 5 micro Coulombs and 7,098 nano Coulombs and get the result in nano Coulombs unit. 4. How many...
QUESTION 4 A +1 C charge is placed at the origin. A-1 C charge is placed at position (x,y)=(2 m, 0), and a -2C charge is placed at (x,y)=(1 m,1 m). What is the electric potential energy of this charge configuration? a.-2.1x10^10) b.-4.5x10^9) C. 4.5x10^91 d. It is impossible to calculate this because there are more than two charges. QUESTIONS A +1 nC charge is placed in a uniform electric field of strength 25 N/C. What force (magnitude and direction)...
charge q 1 = 3.2 × 10-6 C is placed at the origin and charge q 2 = -5.1 × 10-6 C is placed on the x-axis, at x = -0.20 m. Where along the positive x-axis can a third charge Q = -8.3 µC be placed such that the resultant force on this third charge is zero?
A particle with charge 2 mu C is located on the x-axis at the point -10 cm, and a second particle with charge -9 mu C is placed on the x-axis at 10 cm. What Ls the magnitude of the total electrostatic force on a third particle with charge -7 mu C placed on the x-axis at -2 cm ? The Coulomb constant is 8.9875 Times 109 N m^2/C^2.
A 28-μC (1 μC = 10-6 coulomb) point charge is sitting at the origin. A 1.0-C point charge is placed at (9.4 m, 0 m) on the x-axis. The electric potential energy between the two charges is (k = 8.99×109 Nm2/C2) Question 8 options: a) 27,000 J. b) 29,000 J. c) 2,500 J/C. d) b. 28,000 J.
2. Each of two small spheres is positively charged, the combined charge equal to +5.0 x 10-3 C The Coulomb force between these charges is 1.0 N when they are placed 2.0 meters apart. What is the value of each charge?
In the figure, charge q 1 = 2.4 × 10-6 C is placed at the origin and charge q 2 = -6.5 × 10-6 C is placed on the x-axis, at x = -0.20 m. Where along the positive x-axis can a third charge Q = -8.3 µC be placed such that the resultant force on this third charge is zero? 0.20 m 1 41 42