Russian Physics Olympiad Exclusive Jun 2026

Every weekend, these schools run "Circles" (Kruzhki)—voluntary 4-hour problem solving sessions led by former Olympians. By 10th grade, students have solved approximately 2,000 high-level problems.

( Q = \Delta U + W ), ( \Delta U = \frac32 R(T_f - T_0) ). ( W = \int_V_0^2V_0 p(V) dV = \int_V_0^2V_0 \left( p_0 + Mg/S + \frackVS^2 \right) dV ) = ( \left(p_0 + Mg/S\right) V_0 + \frack2S^2 (3V_0^2) ). So ( Q = \frac32 R(T_f - T_0) + \left(p_0 + Mg/S\right) V_0 + \frac3kV_0^22S^2 ). russian physics olympiad