What Is Omega?
Omega is a measure of options pricing, similar to the option Greeks that measure various characteristics of the option itself. Omega measures the percentage change in an option’s value with respect to the percentage change in the underlying price. In this way, it measures the leverage of an options position.
- The third derivative of the option price, Omega measures the effect of an option’s leverage.
- Omega is not always referenced among option Greeks.
- This variable is used most often by option market makers or other sophisticated, high-volume option traders.
Traders use options for many reasons, but one of the most important is leverage. A small investment in a call option, for example, allows the trader to control a larger dollar value of the underlying security. In other words, a call option trading at $25 per contract could control 100 shares of a stock trading at $50 per share with a value of $5,000. The holder has the right, but not the obligation, to purchase those 100 shares at a specific price (the strike price) by a certain date.
Omega is the third derivative of the option price, and the derivative of gamma. It is also known as elasticity.
To see leverage in action, assume Ford Motor Co. (F) shares increase 7% in a given period and a Ford call option increases 3% in that same period. The omega of the call option is 3 ÷ 7, or 0.43. This would imply that for every 1% Ford stock moves, the call option will move 0.43%.
The formula is as follows:
Ω=Percent Change in SPercent Change in Vwhere:V=Price of the optionS= Underlying price
Omega is calculated based on two of the standard option Greeks, delta and gamma. This set of metrics provides a sense of an options contract’s risk and reward with respect to different variables. The most common option Greeks are:
- Delta (Δ): Change in option value with respect to change in underlying price.
- Gamma (Γ): The derivative of delta, it measures the change in delta with respect to the change in the underlying price.
- Omega (Ω): Percent change in option price with respect to percent change in underlying price.
- Theta (Θ): Change in option value with respect to change in time to expiration.
- Rho (ρ): Change in option value with respect to change in risk-free interest rate.
- Vega (v): Change in option value with respect to change in underlying volatility. (Vega is not the name of a Greek letter.)
Relationship to Delta
An option’s gamma is also the rate of change (ROC) in its delta and may be called the delta of the delta.
The equation for omega can also be expressed:
Given that the equation for delta is:
omega can be expressed in terms of delta as:
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