
Explanation:
The volatility of the short rate starts at the constant , and then exponentially decreases to zero. This is evident from the equation
, where the term represents the volatility of the short rate. Here, is the initial volatility, and is the exponential decay factor. As time () increases, decreases exponentially, thus causing the overall volatility to decrease towards zero. This behavior is consistent with the concept of time-dependent volatility, where volatility changes over time. In this case, the volatility starts at a constant value () and decreases exponentially over time, eventually approaching zero.
Choice B is incorrect. The volatility of the short rate does not end at the constant . In Model 3, represents the drift term and not the volatility. Furthermore, there is no indication in Model 3 that suggests that volatility decreases exponentially to zero from .
Choice C is incorrect. According to Model 3, the volatility of the short rate starts at a constant and then decreases exponentially over time due to factor in equation. It does not increase from zero to infinity as suggested by this choice.
Choice D is incorrect. As explained above, in Model 3, represents drift term and not initial point for volatility of short rate which then decreases to zero.
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Q.1682 A special case of the time-dependent volatility function is Model 3. Model 3 illustrates the features of time-dependent volatility through the following equation:
This equation represents the behaviour of the short rate volatility. Which of the following statements is true about the short rate volatility?
A
The volatility of the short rate starts at the constant , and then exponentially decreases to zero.
B
The volatility of the short rate ends at the constant , and then exponentially decreases to zero.
C
The volatility of the short rate starts at the constant , and then exponentially increases from zero to infinite.
D
The volatility of the short rate starts at the constant , and then decreases to zero.