(a) The fundamental SI units are meters for length, seconds for time, kilograms for mass, andCoulomb for charge. Use the Coulomb force law for two interacting point charges (F= kq192/r²)and the force units you already know from mechanics (N) to find the SI units for Coulomb'sconstant k and the constant o = 1/4Tk. Express your answers using only the four fundamentalunits.(b) What are the units of the electric field, expressed first using force units (N) and then using onlyfundamental SI units?(c) Visualizing how an electric field varies with location is going to prove very helpful. Using arrowsat several test points in the xy plane - enough points to illustrate the behavior of the fields -sketch the following electric fields at the test points and briefly describe the behavior of the fieldin words. You only need to provide a qualitatively correct plot that is consistent with the vectorfunction and the description - you don't need to calculate the vectors although I will show youhow to do it in the solutions. Assume that there is no variation in the z direction nor any zcomponent to any of the fields.• E(x, y) = (1N/C) sin(2x)• E(x, y) = (1N/C) sin(2x) *E(r, 0) (1N/C)/r²●

Answered: Image /qna-images/answer/281371cf-a282-4506-b3be-aaf4045a9661.jpg

Answered: (a) The fundamental SI units are meters…

Similar questions

Please explain how to work out this problem. The correct answer is selected, I just don't understand how to get to that answer. I'm also confused by the unit conversions, so please emphasize that if you can. Thank you.
A small block of mass m and charge Q is placed on an insulated, frictionless, inclined plane of angle as in the figure below. An electric field is applied parallel to the incline. Q m E = (a) Find an expression for the magnitude of the electric field that enables the block to remain at rest. (Use any variable or symbol stated above along with the following as necessary: g for the acceleration due gravity. Note that the charge of Q is unknown.) i (b) If m = 5.41 g, Q = -7.49 μC, and 0 = 26.3°, determine the magnitude and the direction of the electric field that enables the block to remain at rest on the incline. magnitude N/C direction ---Select---
Needs Complete typed solution with 100 % accuracy.
I am working on this review question and i couldn't come up with the correct solution. I need a well-explained solution so i can understand the solution and leverage this solution to answer more questions like this.
Consider the two charges in the figure, which are moving in opposite directions and located a distance 11 cm on either side of the origin of the given coordinate system. Charge one is 19.5 uC and is moving at a speed 19.5 x U2 10° m/s, and charge two is -8.5 µC and is moving at a speed of 6.5 x 106 m/s. Notice that the positive z-direction in this figure is directed out of the page. 92 d What is the total magnetic field, in the z-direction, at a point Q located a distance 45 cm down the x-axis, as shown? d 91
Help me answer this An a particle (the nucleus of a helium atom) has mass of 6.64×10^-27kg and charge of q = 2e . Compare the magnitude of the electric repulsion force between two a particles with that of the gravitational attraction between them by getting the ratio F e / F 0. HINT: Convert the given charge into Coulombs.
A small block of mass m and charge Q is placed on an insulated, frictionless, inclined plane of angle e as in the figure below. An electric field is applied parallel to the incline. (a) Find an expression for the magnitude of the electric field that enables the block to remain at rest. (Use any variable or symbol stated above along with the following as necessary: g for the acceleration due gravity. Note that the charge of Q is unknown.) E = (b) If m = 5.81 g, Q = -7.14 µC, and e = 24.5°, determine the magnitude and the direction of the electric field that enables the block to remain at rest on the incline. magnitude N/C direction --Select--
ME: I found the promblem on the web site (book:university-physics-with-modern-physics-14th-edition, isbn 9780321973610, chapter 21, question 27.87) only the charges are different, however I got in to touble with the conclusion. within the Eq give(Part A), the denomiator it equals to zero; at least with my math. Thanks for the help -Av Given: Two 1.20m nonconducting wires meet at a right angle. One segment carries 2.00 μC of charge distributed uniformly along its length, and the other carries − 2.00 μC distributed uniformly along it, as shown in the figure Part A: Find the magnitude of the electric field these wires produce at point P, which is 60.0 cm from each wire Part B: Find the direction of the electric field these wires produce at point P, which is 60.0 cm from each wire.(Suppose that the y-axis directed vertically.) Part C: If an electron is released at P, what is the magnitude of the net force that these wires exert on it? Part D If an electron is released at P, what is…
Needs Complete typed solution with 100 % accuracy.
Answer this problem in Physics. Answer it in this manner: data given, equation used, substitution/computation, and answer:
Two point charges of mass m each are suspended in the gravitational field of the Earth by two non-conducting massless strings, each of length 1, attached to the same fixed point. The spheres are given equal charges of the same sign. As a result each string makes angle a to the vertical (see figure below). Write down an expression for the tension of a string Tin terms of Coulomb force Fc between the charges and the angle a. Use the following notation (without the quotes): "/" for division, "*" for multiplication, "+" an "-" as usual. For powers used "^2", while for square root use "sqrt". To indicate that square root applies to the whole expression use brackets - for example, for √AB use sqrt(A*B). For Greek letters such as , a etc. use pi, alpha. For example to get √AB use 1/pi*A^2/B*sqrt(AB). Please use the exact variables given in the conditions of the problem: e.g 1 if L is given, then do not use 1. For subscripts such as Fe simply write "FC" (without the quotes). Please use…
Solve the following word problems with solution

SEE MORE QUESTIONS