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Black-Scholes Model | Options Trading
Introduction to Finance with Python
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Introduction to Finance with Python

Introduction to Finance with Python

1. Python Basics
2. Options Trading
3. Time Series Forecasting

bookBlack-Scholes Model

What is a Black-Scholes model?

After we've discovered some of the basic strategies for an option trading, it is time to discover one more important aspect in theory of options trading, which is a Black-Scholes Model.

Call Option Case

Here is an expression of this model, which computes price of a call contract:

Here t - option's start time, S_t - price of an asset at moment t, K - strike price, T - moment of option's expiration, σ - volatility of asset, r - risk-free interest rate, N - cumulative distribution function of a standard gaussian distribution.

Also, d_+ could be computed, using the next expression:

While d_- is computed as follows:

Note also, that as long as in all expression present only T-t, but not T or t separately, it all comes down to the point, where only length of time period matters, so we can assume that t=0 and use only T, which now corresponds to the length of time period.

Here is a code implementation:

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# Importing necessary libraries import numpy as np from scipy.stats import norm # Defining corresponding function `black_scholes_call` def black_scholes_call(S, K, T, r, σ): d_plus = (np.log(S / K) + (r + 0.5 * σ ** 2) * T) / (σ * T ** 0.5) d_minus = d_plus - σ * T ** 0.5 return S * norm.cdf(d_plus) - K * np.exp(-r * T) * norm.cdf(d_minus) # Defining all necesaary variables: starting price `S` equals 110, strike price `K` equals 100, length of period `T` is 9 month or 0.75 of a year, risk-free interest rate `r` is 0.04 and volatility `σ` is 0.15 S = 110 K = 100 T = 0.75 r = 0.04 σ = 0.15 # Printing estimated price print(black_scholes_call(S, K, T, r, σ))
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Put Option Case

In case of Put contract, with a previously defined notation, the next expression is used:

Or, it can be rewrited in the next way, showing it's connection with corresponding call option's price:

Analogically to the case of call option, what will be the last row in corresponding function for put option?

Analogically to the case of call option, what will be the last row in corresponding function for put option?

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Seção 2. Capítulo 4
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