### Exercise 22.2A flat sheet is in the shape of a rectangle with sides of lengths 0.400 m and 0.600 m. The sheet is immersed in a uniform electric field of magnitude 90.0 N/C that is directed at 20° from the plane of the sheet (Figure 1).#### Figure 1 (1 of 1)The figure illustrates a rectangular flat sheet with dimensions labeled along its sides: one side is 0.400 meters and the other side is 0.600 meters. An electric field (E) is shown as a vector, pointing at an angle of 20° to the plane of the sheet. The direction of the electric field vector is depicted visually with an arrow, indicating that it is not perpendicular but instead inclined relative to the plane of the rectangular sheet. **Part A****Problem Statement:**Find the magnitude of the electric flux through the sheet.Express your answer to two significant figures and include the appropriate units.**Answer Input Area:**There is an input field labeled with the symbol Φ (for electric flux), followed by a phrase "Value". The units suggested for the answer are N·m²/C (Newtons meter squared per Coulomb). Below the input field, there are buttons for submission and requesting answers, labeled "Submit" and "Request Answer" respectively.**Supporting Tools:**Above the input field, there are several tool icons which include:- A pie chart icon (potentially for graph-related inputs or visual tools)- A reload or reset arrow icon- A question mark icon (likely for help or additional information).**Instructions:**To solve the problem, calculate the electric flux (Φ) and input the result with the correct units, ensuring that the answer is expressed with two significant figures.**Note:** Electric flux (Φ) is commonly calculated using the equation Φ = E * A * cos(θ), where:- E is the electric field strength,- A is the area through which the field lines pass,- θ is the angle between the field lines and the normal (perpendicular) to the surface.If additional diagrams or graphs are available related to the problem, follow the explanations and input your calculated value accordingly.**Submission:**Upon completing the calculation and checking for accuracy, click on "Submit" to enter your answer. If assistance or more information is needed, use the "Request Answer" button or the query tools provided.**Feedback:**A "Provide Feedback" link is available for any remarks or suggestions regarding the problem statement or the interface.

Given, Length, l= 0.6 m Breadth, b=0.4 m Electric field, E= 90 N/C Angle, x=20°

Answered: Exercise 22.2 A flat sheet is in the…

Similar questions

Problem 1 (25%) An infinite plane slab of thickness 2d (the slab is located between z=-d and z=d) carries a uniform volume charge density p. Using the Gauss's law, find the electric field as a function of z inside and outside the slab. Plot schematically the dependence of the electric field as a function of z. 2d $000
Item 10 The electric flux through each of the six sides of a rectangular box are as follows: 1 = 163.7 N·m²/C, Þ₂ = 249.2 N·m²/C, Þ3 = -360.1 Nm²/C, 4 = 172.8 Nm²/C, Þ5 = -118.4 N·m²/C, Þ6 = 439.6 Nm²/C. Part A How much charge is in this box? Submit 15| ΑΣΦ Request Answer ? PC
Answer 15.8
answer is not 0
Physics Problem 23.10 Please help with the problem attached below. Thank you!!
Problem 25.42 Part A A 2.0nC charge is at the origin and a -4.0nC charge is at T = 1,3cm At what a-coordinate could you place a proton so that it would experience no net force? Express your answer to two significant figures and include the appropriate units. HA ? Value Units Submit My Answers Give Up Part B Would the net force be zero for an electron placed at the same position? O Yes O No Submit My Answers Give Up
Problem 5.2 Concentric spherical shells d A small conducting spherical shell with inner radius a and outer radius b is concentric with a larger conducting spherical shell with inner radius c and outer radius d. The inner shell has total charge +2q, and the outer shell has charge +4q. 1. What is the charge on: The inner surface of the inner shell The middle of the inner shell The outer surface of the inner shell The inner surface of the outer shell The outer surface of the outer shell 2. Calculate the electric field E (magnitude and direction) in terms of q and the distance r from the common center of the two shells in each of the cases below. Be sure to start by writing down the integral form of Gauss's Law and explain all of the assumptions you make. (a) r
Please help me with this practice test.
Problem 23.13 5 of 19 I Review I Constants A 12-cm-long thin rod has the nonuniform charge density A (x) = (6 nC/cm) e-lz|/(6.0 cm), where x is measured from the center of the rod. Part A What is the total charge on the rod? Hint: This exercise requires an integration. Think about how to handle the absolute value sign. Express your answer with the appropriate units. HẢ ? Q = Value Units
Quick
PROBLEM 1 Refer to figure 1 below. Three charges, 9₁, 92 and q3 are located equidistant from the point O. Determine the relationship between the ratio of 23 and the angles and ₂ such that the electric field 91 at is 0. (Note that trigonometric functions may be used to describe the relationship). I. II. III. IV. V. VI. 92 Figure 1 Draw and appropriate co-ordinate system to solve the problem. Using your co-ordinate system write the magnitudes and directions of the electric fields from the 3 charges. Using the notation E = |E|î write the vector sum of the electric field at point 0. Solve the E equation for 92. Use this value of q2 in the If q₁ =q2 = q, determine a new relationship between 23 in terms of the angles 0₁ and 0₂. q (0₂ equation to solve for the ratio 2³ in terms of the angles and 0₂. 91 r r 91 93

Exercise 22.2 A flat sheet is in the shape of a rectangle with sides of lengths 0.400 m and 0.600 m. The sheet is immersed in a uniform electric field of magnitude 90.0 N/C that is directed at 20° from the plane of the sheetrEigure 1). Figure 1 of 1