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  2. Black–Scholes equation - Wikipedia

    en.wikipedia.org/wiki/BlackScholes_equation

    Download as PDF; Printable version; ... the Black–Scholes equation, also called the Black–Scholes–Merton equation, ... r is the risk-free interest rate, ...

  3. Black–Scholes model - Wikipedia

    en.wikipedia.org/wiki/BlackScholes_model

    From the parabolic partial differential equation in the model, known as the Black–Scholes equation, one can deduce the Black–Scholes formula, which gives a theoretical estimate of the price of European-style options and shows that the option has a unique price given the risk of the security and its expected return (instead replacing the ...

  4. Finite difference methods for option pricing - Wikipedia

    en.wikipedia.org/wiki/Finite_difference_methods...

    The discrete difference equations may then be solved iteratively to calculate a price for the option. [4] The approach arises since the evolution of the option value can be modelled via a partial differential equation (PDE), as a function of (at least) time and price of underlying; see for example the Black–Scholes PDE. Once in this form, a ...

  5. Change of variables (PDE) - Wikipedia

    en.wikipedia.org/wiki/Change_of_variables_(PDE)

    If we know that (,) satisfies an equation (like the Black–Scholes equation) we are guaranteed that we can make good use of the equation in the derivation of the equation for a new function (,) defined in terms of the old if we write the old V as a function of the new v and write the new and x as functions of the old t and S.

  6. Black model - Wikipedia

    en.wikipedia.org/wiki/Black_model

    The Black model (sometimes known as the Black-76 model) is a variant of the Black–Scholes option pricing model. Its primary applications are for pricing options on future contracts, bond options, interest rate cap and floors, and swaptions. It was first presented in a paper written by Fischer Black in 1976.

  7. Girsanov theorem - Wikipedia

    en.wikipedia.org/wiki/Girsanov_theorem

    we see that the law of under Q solves the equation defining , as ~ is a Q Brownian motion. In particular, we see that the right-hand side may be written as E Q [ Φ ( W ) ] {\displaystyle E_{Q}[\Phi (W)]} , where Q is the measure taken with respect to the process Y, so the result now is just the statement of Girsanov's theorem.

  8. Black's approximation - Wikipedia

    en.wikipedia.org/wiki/Black's_approximation

    In finance, Black's approximation is an approximate method for computing the value of an American call option on a stock paying a single dividend. It was described by Fischer Black in 1975. [1] The Black–Scholes formula (hereinafter, "BS Formula") provides an explicit equation for the value of a call option on a non-dividend paying stock. In ...

  9. Itô's lemma - Wikipedia

    en.wikipedia.org/wiki/Itô's_lemma

    Itô's lemma can be used to derive the Black–Scholes equation for an option. [2] Suppose a stock price follows a geometric Brownian motion given by the stochastic differential equation dS = S(σdB + μ dt). Then, if the value of an option at time t is f(t, S t), Itô's lemma gives