Heavy focus on circuit analysis, variable emf sources, and magnetic fields produced by alternating currents.
| Topic | Equation | |-------|----------| | | ( v = u + at,\ s = ut + \frac12 at^2,\ v^2 = u^2 + 2as ) | | Force | ( F = ma,\ F_g = mg,\ F_f = \mu N ) | | Momentum | ( p = mv,\ F = \frac\Delta p\Delta t ) | | Energy | ( E_k = \frac12 mv^2,\ E_p = mgh ) | | Circular motion | ( a_c = \fracv^2r,\ F_c = \fracmv^2r ) | | Gravitation | ( F = G\fracMmr^2,\ g = \fracGMr^2 ) | | Electricity | ( V = IR,\ P = IV = I^2R = \fracV^2R ) | | Waves | ( v = f\lambda,\ T = \frac1f ) | | Thermal | ( Q = mc\Delta T,\ Q = mL ) | | Photon energy | ( E = hf = \frachc\lambda ) | | Photoelectric | ( E_k = hf - \phi,\ V_s = \frachf - \phie ) | | Relativity (HL) | ( \gamma = \frac1\sqrt1-v^2/c^2,\ \Delta t = \gamma \Delta t_0,\ L = \fracL_0\gamma ) | ib physics november 2019 paper 1
Simply downloading and taking the test once is not enough. Follow this structured approach: Heavy focus on circuit analysis, variable emf sources,
As you complete your review of the November 2019 Paper 1, ensure you can answer “yes” to these questions: Heavy focus on circuit analysis
Included problems on ideal gas approximations under specific pressure and density conditions.
: Focused on series/parallel circuit current calculations and the deflection of ions in magnetic fields. Preparation Resources