MCQOPTIONS
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MCQOPTIONS
This section includes 5 Mcqs, each offering curated multiple-choice questions to sharpen your Physics knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
The 3 charges ( frac {q}{2} ), -q, ( frac {q}{2} ) are placed along the x axis at x = 0, x = r, x = 2 respectively. Find the resultant potential at a point A located at a distance y from charge q such that r << y. |
| A. | V= ( frac {4qr^2}{4 pi varepsilon_o y} ) |
| B. | V= ( frac {qr^3}{4 pi varepsilon_o y^3} ) |
| C. | V= ( frac {qr^2}{4 pi varepsilon_o y^3} ) |
| D. | V= ( frac {qr^3}{4 pi varepsilon_o y^2} ) |
| Answer» D. V= ( frac {qr^3}{4 pi varepsilon_o y^2} ) | |
| 2. |
Electric field and electric field intensity are related to electric potential. |
| A. | True |
| B. | False |
| Answer» B. False | |
| 3. |
Two equal and opposite charges Q1 = 2 C and Q2 = -2C are placed at a distance of 6m from each other. What is the potential at the midpoint between the two charges? |
| A. | 2 V |
| B. | 0 V |
| C. | 1 V |
| D. | 3 V |
| Answer» C. 1 V | |
| 4. |
There are infinite number of charges, each equal to q , which are placed along the X-axis at points x = 1, x = 4, x = 16, x = 64 ..Then, determine the electric potential due to this system of charges at the point x = 0. |
| A. | V= ( frac {16q}{3 pi varepsilon_o} ) |
| B. | V= ( frac {3q}{4 pi varepsilon_o} ) |
| C. | V= ( frac {4q}{8 pi varepsilon_o} ) |
| D. | V= ( frac {3q}{16 pi varepsilon_o} ) |
| Answer» E. | |
| 5. |
Which is the expression for electric potential due to a system of charges from the following? |
| A. | V= ( frac {1}{4 pi varepsilon_o} ( frac {q_1}{r_1} + frac {q_2}{r_2} + frac {q_3}{r_3} + . frac {q_n}{r_n}) ) |
| B. | V=1 4 <sub>o</sub> ( ( frac {q_1}{r_1} + frac {q_2}{r_2} + frac {q_3}{r_3} + . frac {q_n}{r_n}) ) |
| C. | V= ( frac {1}{8 pi varepsilon_o} ( frac {q_1}{r_1} + frac {q_2}{r_2} + frac {q_3}{r_3} + . frac {q_n}{r_n}) ) |
| D. | V= ( frac {1}{4 pi varepsilon_o} ( frac {q_1}{r_1} times frac {q_2}{r_2} times frac {q_3}{r_3} times . frac {q_n}{r_n}) ) |
| Answer» B. V=1 4 <sub>o</sub> ( ( frac {q_1}{r_1} + frac {q_2}{r_2} + frac {q_3}{r_3} + . frac {q_n}{r_n}) ) | |