Electric Charges And Fields MCQs With Answers – Part 3 (Class 12 Physics)
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Electric Charges and Fields MCQs with Answers – Part 3 (Class 12 Physics)

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211. Three identical positive charges are fixed at three corners of a square. A positive charge \(+q\) is placed at the centre. The direction of the net force on \(+q\) is
ⓐ. away from the empty corner
ⓑ. toward the empty corner
ⓒ. along one side of the square
ⓓ. zero because three charges are identical
212. Two equal positive charges \(+Q\) are fixed at the two lower corners of an equilateral triangle. A positive charge \(+q\) is placed at the upper corner. If the force on \(+q\) due to each lower charge has magnitude \(F\), the resultant force on \(+q\) has magnitude
ⓐ. \(F\)
ⓑ. \(2F\)
ⓒ. \(\sqrt{2}F\)
ⓓ. \(\sqrt{3}F\)
213. At the centre of a square, a charge \(+q\) experiences forces due to four corner charges. The two charges at one diagonal are \(+Q\) and \(+Q\), while the two charges at the other diagonal are \(-Q\) and \(-Q\). The net force on \(+q\) is
ⓐ. along the diagonal joining the negative charges
ⓑ. along the diagonal joining the positive charges
ⓒ. zero
ⓓ. perpendicular to the plane of the square
214. A charge \(+q\) is placed at the origin. Two identical positive charges are fixed at \((a,0)\) and \((0,a)\). If the force magnitude on \(+q\) due to each fixed charge is \(F\), the net force on \(+q\) is directed
ⓐ. along \(+\hat{i}+\hat{j}\)
ⓑ. along \(-\hat{i}-\hat{j}\)
ⓒ. along \(+\hat{i}-\hat{j}\)
ⓓ. along \(-\hat{i}+\hat{j}\)
215. Use the arrangement described below: a charge \(+Q\) is fixed at \((a,0)\), another charge \(+Q\) is fixed at \((-a,0)\), and a charge \(+q\) is placed at \((0,a)\). The horizontal components of the forces on \(+q\)
ⓐ. become perpendicular to the line joining the fixed charges
ⓑ. add toward \(+\hat{i}\)
ⓒ. add toward \(-\hat{i}\)
ⓓ. cancel each other
216. Two identical positive charges are placed at \((a,0)\) and \((0,a)\). A positive charge at the origin experiences force \(F\) from each of them. The magnitude of the net force on the origin charge is
ⓐ. \(2F\)
ⓑ. \(\sqrt{2}F\)
ⓒ. \(\frac{F}{\sqrt{2}}\)
ⓓ. \(0\)
217. A charge \(+q\) is placed at the centre of a rectangle. Equal positive charges \(+Q\) are fixed at the two ends of one diagonal, and no charges are fixed at the other two corners. The net force on \(+q\) due to the two fixed charges is
ⓐ. along the longer side of the rectangle
ⓑ. toward the nearer corner
ⓒ. zero
ⓓ. perpendicular to the rectangle
218. In a square of side \(a\), two charges \(+Q\) are fixed at the left two corners and two charges \(-Q\) are fixed at the right two corners. A positive charge \(+q\) is placed at the centre. The net force on \(+q\) is directed
ⓐ. toward the right side
ⓑ. toward the left side of the square
ⓒ. upward
ⓓ. zero
219. A charge \(+q\) is placed at the centre of a square. Four charges of equal magnitude are placed at the corners: top-left \(+Q\), top-right \(-Q\), bottom-right \(+Q\), and bottom-left \(-Q\). The net force on the centre charge is
ⓐ. toward the top side
ⓑ. zero
ⓒ. toward the right side
ⓓ. along the diagonal from top-left to bottom-right
220. A square has side \(0.20\,\text{m}\). A charge \(+2.0\,\mu\text{C}\) is placed at one corner, and a charge \(+3.0\,\mu\text{C}\) is placed at the diagonally opposite corner. The separation between the charges is
ⓐ. \(0.20\,\text{m}\)
ⓑ. \(\frac{0.20}{\sqrt{2}}\,\text{m}\)
ⓒ. \(0.40\,\text{m}\)
ⓓ. \(0.20\sqrt{2}\,\text{m}\)
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