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JEE Physics: Waves (+15.5%) | Electrostatics: Concentric Shells (-29.7%) | Modern Physics: Photoelectric Clones (+34.2%) | Mathematics: Definite Integrals (+18.1%) | Chemistry: Coordination Splitting (-11.4%) | JEE Physics: Waves (+15.5%) | Electrostatics: Concentric Shells (-29.7%) | Modern Physics: Photoelectric Clones (+34.2%) | Mathematics: Definite Integrals (+18.1%) | Chemistry: Coordination Splitting (-11.4%)

In the given circuit, the current in resistance R_3 is:
Series and parallel resistor network with 10V battery for Q46 - JEE Main 2024 29 January Shift 2
The diagram displays a circuit consisting of series-parallel combinations of R1, R2, R3, and R4 with a 10V voltage source.

Solution & Explanation

### Related Formula For parallel resistors: R_textparallel = fracR_a R_bR_a + R_b Total equivalent resistance in series: R_texteq = R_1 + R_textparallel + R_4 Total current from source: I = fracVR_texteq ### Core Logic Analyzing the circuit network: * R_1 = 2\ Omega * R_2 = 4\ Omega and R_3 = 4\ Omega are in parallel. * R_4 = 1\ Omega Calculate the equivalent resistance of the parallel combination: R_textparallel = fracR_2 times R_3R_2 + R_3 = frac4 times 44 + 4 = 2\ Omega ### Step 1: Calculate Total Equivalent Resistance and Current Total equivalent resistance is: R_texteq = R_1 + R_textparallel + R_4 = 2 + 2 + 1 = 5\ Omega Total circuit current is: I = fracVR_texteq = frac10text V5\ Omega = 2text A ### Step 2: Determine Current in R3 The total current of 2text A enters the parallel branch of R_2 and R_3. Since R_2 = R_3 = 4\ Omega, the current divides equally between them: I_R_3 = I times fracR_2R_2 + R_3 = 2 times frac48 = 1text A
Equivalent resistance and current paths in circuit for Q46
The diagram displays a circuit consisting of series-parallel combinations of R1, R2, R3, and R4 with a 10V voltage source.
### Pattern Recognition Equal parallel resistors split current exactly down the middle. Once total current is found to be 2text A, the parallel branches share it as 1text A each without further math. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Physics: Current Electricity

Reference Study Guides

More Current Electricity Previous-Year Questions — Page 3

Q13 jee_main_2025_04_april_morning Electric Current and Charge Flow
Current passing through a wire as function of time is given as I(t)=0.02t+0.01mathrm~A. The charge that will flow through the wire from t=1mathrm~s to t=2mathrm~s is:
  • A. 0.06 C
  • B. 0.02 C
  • C. 0.07 C
  • D. 0.04 C

Solution

### Related Formula q = int_t_1^t_2 I(t) \, dt ### Core Logic Given trace: I(t) = 0.02t + 0.01 Limits: t_1 = 1mathrm~s, t_2 = 2mathrm~s ### Step 1: Perform Definitive Integration q = int_1^2 (0.02t + 0.01) \, dt q = left[ 0.02fract^22 + 0.01t ight]_1^2 = left[ 0.01t^2 + 0.01t ight]_1^2 q = left[ 0.01(2)^2 + 0.01(2) ight] - left[ 0.01(1)^2 + 0.01(1) ight] q = [0.04 + 0.02] - [0.01 + 0.01] = 0.06 - 0.02 = 0.04mathrm~C Hence, the total charge integration yields 0.04mathrm~C. ### Pattern Recognition Definite calculus integrations over a linear function can also be checked visually via calculating trapezoidal graph spaces under the Itext-t curve line. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Physics: Current Electricity
Q23 jee_main_2025_24_jan_morning Combination of Resistors
A wire of resistance 9Omega is bent to form an equilateral triangle. Then the equivalent resistance across any two vertices will be ______ ohm.
Numerical Answer. Answer: 2 to 2

Solution

### Core Logic The total resistance of the continuous uniform wire loop is 9Omega. When bent into an equilateral triangle, it is split into three equal length sections. The resistance of each individual side is: R_textside = frac9Omega3 = 3Omega ### Step 1: Calculating Equivalent Series and Parallel Resistance As shown in the circuit diagrams
Combination of Resistors diagram for Q23 - JEE Main 2025 Morning
Combination of Resistors diagram for Q23 - JEE Main 2025 Morning
and
Combination of Resistors diagram for Q23 - JEE Main 2025 Morning
Combination of Resistors diagram for Q23 - JEE Main 2025 Morning
, measuring across any two vertices means one branch contains a single side resistor (3Omega), while the other branch contains the remaining two sides connected in series : R_textseries = 3Omega + 3Omega = 6Omega Now, calculate the parallel equivalent between these two branches: R_texteq = fracR_textside times R_textseriesR_textside + R_textseries = frac3 times 63 + 6 = frac189 = 2Omega ### Pattern Recognition For a closed uniform loop with N equal sides, the parallel resistance measured across adjacent corners always simplifies to fracN-1N^2 cdot R_texttotal. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Physics: Current Electricity
Q24 jee_main_2025_28_jan_evening Wheatstone Bridge
The value of current I in the electrical circuit as given below, when potential at A is equal to the potential at B, will be ________ A.
Wheatstone Bridge diagram for Q24 - JEE Main 2025 Evening
A bridge resistor network supplied by a 40V DC voltage source terminal layout.
Numerical Answer. Answer: 2

Solution

### Related Formula For a balanced Wheatstone bridge network, if the potentials at opposite nodes are equal (V_A = V_B), no current flows through the central branch. The resistance arms satisfy the balance ratio: fracR_1R_2 = fracR_3R_4 Total current from the source is calculated using Ohm's law: I = fracV_textsourceR_textequivalent ### Core Logic Given conditions : V_A = V_B implies textBalanced condition From the circuit network diagram [cite: 817, 818, 826, 828]: * Left-top arm = 10 \ Omega * Left-bottom arm = R * Right-top arm = 20 \ Omega * Right-bottom arm = 40 \ Omega Apply the balance condition to solve for unknown resistor R : frac10R = frac2040 implies frac10R = frac12 implies R = 20 \ Omega quad text[cite: 837, 838] Now restructure the equivalent network : Since the central 30 \ Omega resistor branch carries zero current, it can be removed from the calculation [cite: 820, 834]. * Top \parallel branch: 10 \ Omega + 20 \ Omega = 30 \ Omega * Bottom \parallel branch: 20 \ Omega + 40 \ Omega = 60 \ Omega Calculate total equivalent resistance R_texteq: R_texteq = frac30 times 6030 + 60 = frac180090 = 20 \ Omega Calculate total current I drawn from the 40textV source: I = frac40 text V20 \ Omega = 2 text A ### Step 1: Circuit Solution The balanced bridge network layout with branch currents is shown below:
Wheatstone Bridge network reduction diagram for Q24
A bridge resistor network supplied by a 40V DC voltage source terminal layout.
### Pattern Recognition When a question states that two nodes are at equal potential (V_A = V_B), immediately identify it as a balanced Wheatstone bridge. This allows you to remove the central branch and simplify the circuit into basic series-\parallel resistor combinations. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Physics: Current Electricity
Q34 jee_main_2024_01_february_morning Cells and EMF
The reading in the ideal voltmeter (V) shown in the given circuit diagram is:
Voltmeter circuit network with parallel batteries for Q34 - JEE Main 2024 Morning
A schematic showing a symmetric loop containing multiple identical 5V sources with 0.2 Ohm internal resistances coupled across an ideal voltmeter terminal.
  • A. 5mathrm~V
  • B. 10mathrm~V
  • C. 0mathrm~V
  • D. 3mathrm~V

Solution

### Related Formula Total effective loop EMF and internal resistance: I = fracE_textnetr_textnet Terminal potential difference across a discharging cell: V = E - Ir ### Core Logic The loop has a set of 8 cells all aiding the same current flow sequence direction. E_texteq = 8 times 5 = 40mathrm~V r_texteq = 8 times 0.2 = 1.6mathrm~Omega The circulating loop current is: I = frac40mathrm~V1.6mathrm~Omega = 25mathrm~A ### Step 1: Terminal Voltage Calculation The ideal voltmeter measures the potential drop across the localized parallel branch configuration: V = E - Ir = 5 - (25 times 0.2) = 5 - 5 = 0mathrm~V ### Pattern Recognition A closed loop composed entirely of identical series active cells short circuits itself perfectly relative to the localized node drop points, reducing the net external voltage drop to zero. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Physics: Current Electricity
Q59 jee_main_2024_01_february_morning Electric Charge and Current
The current in a conductor is expressed as I = 3t^2 + 4t^3, where I is in Ampere and t is in second. The amount of electric charge that flows through a section of the conductor during t = 1mathrm~s to t = 2mathrm~s is _______ mathrmC.
Numerical Answer. Answer: 22 to 22

Solution

### Related Formula Relationship between charge and time-varying current: I = fracdqdt implies q = int_t_1^t_2 I \, dt ### Core Logic Set up the definite integral using the given bounds t=1mathrm~s to t=2mathrm~s: q = int_1^2 (3t^2 + 4t^3) \, dt Perform integration term-by-term: q = left[ frac3t^33 + frac4t^44 right]_1^2 = left[ t^3 + t^4 right]_1^2 ### Step 1: Evaluate Definite Bounds Substitute upper and lower limits: q = (2^3 + 2^4) - (1^3 + 1^4) q = (8 + 16) - (1 + 1) = 24 - 2 = 22mathrm~C ### Pattern Recognition Simple polynomial integration. Always evaluate both boundary points explicitly to avoid dropped terms from the lower bound. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Physics: Current Electricity

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