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Runge-Kutta Methods
★★★★☆Undergraduate
📖Definition
Runge-Kutta methods are high-precision techniques for numerical solutions of differential equations. Fourth-order (RK4) is most widely used.
📐Formulas
k₁ = f(tₙ, yₙ)
First slope
k₂ = f(tₙ + (h)/(2), yₙ + (h)/(2)k₁)
Second slope
k₃ = f(tₙ + (h)/(2), yₙ + (h)/(2)k₂)
Third slope
k₄ = f(tₙ + h, yₙ + hk₃)
Fourth slope
y_n+1 = yₙ + (h)/(6)(k₁ + 2k₂ + 2k₃ + k₄)
RK4 update formula
✏️Examples
예제 1
Apply RK4 to dy/dt = y, y(0) = 1 with h = 0.1.
📜History
Discovered by: Carl Runge, Martin Kutta (1901)
Developed combining multiple slopes to improve Euler method accuracy.
⚡Applications
Physics Simulation
Orbital mechanics, particle motion
Game Development
Physics engines
Engineering
Control system simulation
🔗Related Documents
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