we used superposition to apply gauss's law to asymmetric shapes
so this must be false
Please solve step by step 3 1 point Gauss' Law can only be used when there...
please show all work and steps!
3 1 point Gauss' Law can only be used when there is symmetry in the charge distributions True False
please solve in a detailed manner with neat
handwriting ????
cie p s Cosn Using Gauss law for the electric lield in dallerential form and symmetry considerations, find the electric field everywhere. 3.24. Given D -ya, - y'ay, find the charge density at (a) the point (2.1.0) and (b) the point (3,2,0).
Use Gauss’ law to derive this (23-13) equation. Please show
steps.
Gauss' Law: Planar Symmetry Sheet 7 shows a portion of a thin, infinite, nonconducting s ve) surface charge density ơ.A sheet of thi one side, can serve as a simple model. Le n front of the sheet. ing heet with a uni- plastic wrap, uniformly t us find the electric field Gaussian surface is a closed cylinder with end caps of are ierce the sheet perpendicularly as shown. From...
For Gauss' law where is the Electric field evaluated? O All points in space The center of the charge distribution At an arbitrary point in space On the Gaussian surface o It depends on the symmetry An arbitrarily shaped uncharged conductor is added to a field map. Which field lines are affected by the addition of the conductor? No field lines are affected Only field lines that intersect the conductor are affected Most field lines are somewhat affected
Please solve step by step.
1 point In an LC circuit, the capacitor plates reverse their charge. O Correct; every half oscillation O Incorrect O They simply lose it! O Correct; every full oscillation 2
Using Gauss' Law, find the electric field due to 1) A positive point charge 2) A spherical shell with radius R and a uniform surface charge density (σ) 3) A solid sphere with radius R and a uniform volume charge density (ρ)
Question 1 (compulsory): (i) State Gauss' law for the electric field (E-field) in words and explain its meaning. Write the corresponding mathematical expression and clearly define all symbols and operations used. Describe one application of Gauss' law. 15% (ii) A very long wire carrying electric charge with uniform line charge density is located in free space. Applying Gauss' law, derive the E-field due to this wire. Clearly explain every step of your derivation and the assumptions you take. 40% Find...
please help with 24 and 25
Question 24 (1 point) ✓ Saved 24. Kirchhoff's loop law is based on conservation of charge. True False Question 25 (1 point) ✓ Saved 25. The magnetic force does no work on a moving charge. True False
Please solve step by step
The electric force on a charged object will always point in the direction of the electric field. O Incorrect, because the field always points down. O Incorrect, because for a negative charge, it will point in the opposite direction as that of the field. O Correct, because mass is always positive. O Correct, because F qE.
2. The Gauss-Jordan method used to solve the prototype linear system can be described as follows. Augment A by the right-hand-side vector b and proceed as in Gaussian elimination, except use the pivot element -) elements -1) for i= 1,.k-I, ie.. all elements in the kth column other than the pivot. Upon reducing (Alb) into to eliminate not only a for i= k+1,...,n but also the dit (n-1) (n-1) b. (n-1) (n-1) (n-1) (n-1) agn the solution is obtained by...