A very long non-conducting wire with radius R is charged uniformly with volume charge density of p. Use the Gauss Law to find the electric field inside the wire. (r
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- signment valu A pair of parallel conducting plates are given charges of equal magnitude but opposite sign to create a uniform electric field with magnitude 26 N/C. A rectangular surface with dimensions 4.6 cm x 2.2 cm is located in the gap between the parallel plates. Part (a) N-m²/C What is the magnitude of the electric flux, in newton squared meters per coulomb, through the rectangular surface if it is parallel to the charged plates? |DE| = || sin() cotan() cos() tan() 8 9 HOME Grade Summary Deductions Potential Submissions 0% 100% Attempt(s) Remaining: 3 asin() acos(). E^^4 5 6 atan() acotan() sinh() cosh() tanh() cotanh() O Degrees 4% Deduction per Attempt detailed view 12 3 + - 0 END Radians VO BACKSPACE DEL CLEAR Submit Hint Feedback I give up! Submission(s) Remaining Hints: 4% deduction per hint. Hints remaining: 1 Feedback: 5% deduction per feedback. Part (b) What is the magnitude of the electric flux, in newton squared meters per coulomb, through the rectangular surface if it…6. An infinite line is uniformly charged with a linear charge density A.Find a formula describing the electric field at a distance z from the line.An Insulating sphere of radius Rhas a non-uniform charge density which is given by p=or. The magnitude of the electric field at point Pis: aR %3D 12c0 What is the distance of the point P from the center of the sphere? a. T= 2R b. T%3= O c. T= d. r3D e. T=
- A hollow metallic sphere is properly loaded. Now a positive charge q as shown in Figure Imagine placing the sphere somewhere (not in the middle) within the sphere without touching its walls. What is the amount of charge distributed on the inner surface and outer surface of the metal sphere? Electric field lines inside the sphere Draw the shape carefully.A solid insulating sphere with radius Rhas a non-uniform charge density p= ar. Find the magnitude of the electric field for r < R. O a. E 8R eo ar4 O b. E Reo CO C. E p2 4a Reo O d. E ar3 Rco O e. E = 4e0Self-Paced Problem 1: Human nerve cells have a net negative charge and the material in the interior of the cell is a good conductor. If a cell has a net charge of -7.52 pC, a. what are the magnitude and direction (inward or outward) of the net flux through the cell boundary? b. what is the volume charge density passing through the cell? Assume that the portion of the cell in question is spherical with radius r 1.2 x 10-6m. —
- 2. Planes x=-3, y=6, respectively, carry charges 8 nc/m² and 12 nc/m². If the line x=0, y=3 carries charge 87 nc/m. Find the electric field E at (1, 1,-1).On the A, B, C, D corners of a square with 1.0 cm length, point charges were places, as A(+g), B(+g), C(-g), D(-q). Here g = 0.1 µC. Calculate the magnitude and direction of the electric field at the center of the square. A D O A. 72 x 106 N/C; -y direction O B. 72 x 10° N/C; +y direction O C. 51x106 N/C; -y direction O D. zeroCan you please answer this question by details
- A pair of parallel conducting plates are given charges of equal magnitude but opposite sign to create a uniform electric field with magnitude 38 N/C. A rectangular surface with dimensions 4.2cm×1.2cm is located in the gap between the parallel plates. a. What is the magnitude of the electric flux, in newton squared meters per coulomb, through the rectangular surface if it is parallel to the charged plates? b. What is the magnitude of the electric flux, in newton squared meters per coulomb, through the rectangular surface if it is perpendicular to the charged plates? c. What is the magnitude of the electric flux, in newton squared meters per coulomb, through the rectangular surface if the angle between its normal and the electric field is 25∘?An electric field is given by E = sign(x) · (300 N/C)î where sign(x) = –1 if x 0. A cylinder of length 20 cm and radius 4.0 cm has its center at the origin and its axis along the x-axis such that one end is at x = +10 cm and the other is at x = –10 cm. | What is the net charge inside the cylinder? A. 2.7 × 10¬11 C B. 2.7 × 10¬7 C C. 9.3 × 10¬11 C D. 1.3 × 10º CsolvEx. Consider a negative charge –Q that is uniformly distributed along the yaxis between y =0 and y = l as shown. Which of the following is the correct expression for the a-component of the net electric field at point P? +y Q P + x ydy (2 + y?)3/2 OA. kQ O B. kQ ydy (교2 + y?)s/2 zdy kQ ( + y )3/2 OC. OD. kQ zdy (22 + y?)3/2