Determine the magnitude of the force, in micronewtons, being experienced by a -7-nC charge at (3, -5, 3) due to three infinite sheet charges. One is -9 mC/m2 at x = 0, another is 5 mC/m2 at y = 1, while the last one is 6 mC/m2 at z = zC. All coordinates is measured in meters.
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Determine the magnitude of the force, in micronewtons, being experienced by a -7-nC charge at (3, -5, 3) due to three infinite sheet charges. One is -9 mC/m2 at x = 0, another is 5 mC/m2 at y = 1, while the last one is 6 mC/m2 at z = zC. All coordinates is measured in meters.
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- Two protons (p) and two electrons (e) are arranged on a circle of radius r = 3 [cm], with angles 0₁ = 20°, 0₂ = 30°, 03 = 20° and 04 = 60°, as shown in the figure. ( qp = +1.6 x 10-1⁹ [C] and qe = -1.6 x 10-19 [C]). The figure is not to scale. 03 04 02 a. Find Ener, the net electric field vector produced at the center of the circle. Ēnet = ( ])i + ( ]) Ĵ [N/C] b. [€ ] Where on the circle should a fifth point charge qo be placed (give its angle relative the +x-axis) and what is its value (calculate qo) in order to have Ēner (the net electric field at the center of the circle) equals zero (Type the detailed solution to this question in the below box, Show all your calculation steps by typing in the box). XConsidering electron and proton as two charged particles separated by d = 4.5 x 10m calculate the gravitational force between the proton and electron and find its ratio to the Coulomb force. Take the mass of the proton 1.7 x 10-27 kg, the mass of the electron 9.1 x 10-³1 kg, the value of 1 the universal gravitational constant 6.7 × 10-¹1 N kg-2m-2, the electron charge -1.6 × 10- C and = 9 x 10⁹ m/F. Give the answer for Απερ the gravitational force in 10-47 N. 19up y y Fig. 1(a). Fig. 1(b). k = 8.987 × 10ºN•m² /C² g=9.8m/s², G = 6.67 × 10-11m³ · kg -1 -2 •S R= 6400, 000 m. Consider two charges q1 = 2 mC (mC stands for milli-coulomb) and q2 = -9 mC with coordinates given by (-2, 2) and (3, 3), respectively. (See figure 1a. Figure is not drawn to scale). (d) Find the electric field at the origin O due to q1 and q2. Give your answer in N/C. (e) If we place another charge qo = +2.5µC at the origin O (see fig. (1b)) find the force on qo charge due to the electric field generated by q1 Here 1µC = 1 micro coulomb = 10-6C. Give your answer in N. and 92.
- Determine the magnitude of the force, in micronewtons, being experienced by a -9-nC charge at (-1, 3, 7) due to three infinite sheet charges. One is -6 mC/m2 at x = 4, another is 8 mC/m2 at y = -6, while the last one is 7 mC/m2 at z = zC. All coordinates is measured in meters.Problem 2: A certain lightning bolt moves Q = 35 C of charge. How many fundamental units of charge e is this? N = I sin() cos() cotan() asin() atan() acotan() cosh() tanh() O Degrees O Radians tan() π 7 acos() E ^^^ 4 sinh() 1 cotanh() * 8 9 5 6 2 3 + 0 VO BACKSPACE DEL HOME END CLEARA charge of q = 1 10-10 C is located at (0,1,-2) and point P is at (1,1,z). The velocity vector v = 2i - 3j - k. Write an equation to find the value of z when B = 0.5i - 0.1j + 0.3k.
- only 7 and 8please ans b c dThe ball of mass m = 2.00 g has a drag coefficient of D = 0.500 and a radius of r = 1.00 cm, and carries a charge of 3.75 µC. The density of air surrounding the ball is ) = 1.20 kg/m. Divide your group in two and have one subgroup solve part (a) and the other part (b). (a) Group (i): The wind blows to the right in the figure at a speed of 10.0 m/s. What angle (in degrees) does the string make with the vertical? (b) Group (ii): The wind shifts so that it blows into the page at the same speed. Now what angle (in degrees) does the string make with the vertical? Now gather your group together again and answer the following. (c) In part (b), what angle (in degrees) does the string make with the plane of the page when looking at the figure?
- A charged belt, 55 cm wide, travels at 33 m/s between a source of charge and a sphere. The belt carries charge into the sphere at a rate corresponding to 87 µA. Compute the surface charge density on the belt.The classic Millikan oil drop experiment was the first to obtain an accurate measurement of the charge on an electron. In it, oil drops w -e microscope Assume the oil drop to be 2.50 µm in radius and have a density of 942 kg/m3. (a) Find the weight of the drop. 2355 How is the mass of the spherical drop related to its volume and density? N (b) If the drop has a single excess electron, find the magnitude of the electric field strength needed to balance its weight. N/CLet D = 6xy3z2 ax + 7xyz4 ay + 8x5y4 az PC/m2 in free space, Find the total charge contained in an incremental volume (cylindrical) having a diameter of 0.8×103 mm centered at P (4, 1, 6) and high of 600 cm ?