Physics Paper 1
JEE Advanced 2026 Paper 1
Mechanics, optics, induction and conceptual reasoning from the first JEE Advanced 2026 Physics paper.
← Back to paper selectionQuestion list
Choose a study companion.
Each question opens a focused page with simulation, derivation and final answer reasoning.
2026 P1 Q11Heat TransferConducting partition:
how fast does ΔT halve?Watch heat conduct through the fixed partition while the piston keeps one side at atmospheric pressure, giving n ≈ ln 2.Open study companion ↗2026 P1 Q12ElectromagnetismA spinning charged cone makes a magnetic field.Slice the cone into current rings and see how a rotating charge distribution behaves like a dipole.Open study companion ↗2026 P1 Q13WavesSound through tubes:
two paths, one detector.Follow the interfering sound paths and make the phase difference visible instead of abstract.Open study companion ↗2026 P1 Q14OpticsFour optical effects:
what causes each one?Connect aurora, the polarised sky, rainbows, and interference fringes to the physics behind them.Open study companion ↗2026 P1 Q15ElectromagnetismRotating loops:
how does the current change?Rotate four conducting loops through a magnetic half-plane and connect changing flux to the induced-current graphs.Open study companion ↗
how fast does ΔT halve?Watch heat conduct through the fixed partition while the piston keeps one side at atmospheric pressure, giving n ≈ ln 2.Open study companion ↗2026 P1 Q12ElectromagnetismA spinning charged cone makes a magnetic field.Slice the cone into current rings and see how a rotating charge distribution behaves like a dipole.Open study companion ↗2026 P1 Q13WavesSound through tubes:
two paths, one detector.Follow the interfering sound paths and make the phase difference visible instead of abstract.Open study companion ↗2026 P1 Q14OpticsFour optical effects:
what causes each one?Connect aurora, the polarised sky, rainbows, and interference fringes to the physics behind them.Open study companion ↗2026 P1 Q15ElectromagnetismRotating loops:
how does the current change?Rotate four conducting loops through a magnetic half-plane and connect changing flux to the induced-current graphs.Open study companion ↗