![Consider the vectors \vec{A} and \vec{B} shown below. Which of the other four vectors (\vec{C}, \vec{D}, \vec{E}, \vec{F}) in the figure best represent the direction of: a. \vec{A} + \vec{B}, b. \vec{ Consider the vectors \vec{A} and \vec{B} shown below. Which of the other four vectors (\vec{C}, \vec{D}, \vec{E}, \vec{F}) in the figure best represent the direction of: a. \vec{A} + \vec{B}, b. \vec{](https://homework.study.com/cimages/multimages/16/me6696012578451037703627.png)
Consider the vectors \vec{A} and \vec{B} shown below. Which of the other four vectors (\vec{C}, \vec{D}, \vec{E}, \vec{F}) in the figure best represent the direction of: a. \vec{A} + \vec{B}, b. \vec{
![An electric field given by `vec(E )= 4hat(i)+3(y^(2)+2)hat(j)` pieces Gaussian cube side `1m` place - YouTube An electric field given by `vec(E )= 4hat(i)+3(y^(2)+2)hat(j)` pieces Gaussian cube side `1m` place - YouTube](https://i.ytimg.com/vi/z85FTHWnHUw/maxresdefault.jpg?sqp=-oaymwEmCIAKENAF8quKqQMa8AEB-AH-CYAC0AWKAgwIABABGGUgZShlMA8=&rs=AOn4CLDtLNxUHW2pwQ-Sixbul1UuwPxzaA)
An electric field given by `vec(E )= 4hat(i)+3(y^(2)+2)hat(j)` pieces Gaussian cube side `1m` place - YouTube
![An electric field `vecE = vec(i20 + vecj30 ) NC^(-1)` exists in the space. If the potential at the - YouTube An electric field `vecE = vec(i20 + vecj30 ) NC^(-1)` exists in the space. If the potential at the - YouTube](https://i.ytimg.com/vi/FatDQYnso4s/maxresdefault.jpg)
An electric field `vecE = vec(i20 + vecj30 ) NC^(-1)` exists in the space. If the potential at the - YouTube
![Consider an electric field $ \\vec E = {E_ \\circ }\\hat x,{\\text{ where }}{E_ \\circ } $ is a constant. The flux through the shaded area ( as shown in the figure) Consider an electric field $ \\vec E = {E_ \\circ }\\hat x,{\\text{ where }}{E_ \\circ } $ is a constant. The flux through the shaded area ( as shown in the figure)](https://www.vedantu.com/question-sets/a8f223b0-66e4-496d-8a13-a841503655e8326696757993573685.png)
Consider an electric field $ \\vec E = {E_ \\circ }\\hat x,{\\text{ where }}{E_ \\circ } $ is a constant. The flux through the shaded area ( as shown in the figure)
![If the electric field is given by `vec(E) = 8 hat(i) + 4 hat(j) + 3 hat(k) NC^(-1)`, calculate the - YouTube If the electric field is given by `vec(E) = 8 hat(i) + 4 hat(j) + 3 hat(k) NC^(-1)`, calculate the - YouTube](https://i.ytimg.com/vi/RMGuKFx-3xI/maxresdefault.jpg)
If the electric field is given by `vec(E) = 8 hat(i) + 4 hat(j) + 3 hat(k) NC^(-1)`, calculate the - YouTube
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