There's a roughly linear relationship between the number of times a species of cricket will chirp in one minute and the temperature outside. For a certain type of cricket, this relationship can be expressed using the formula \( T=33+0.25 c \), where \( T \) represents the temperature in degrees Fahrenheit and \( c \) represents the number of times the cricket chirps in one minute. What could the number 0.25 represent in the equation?

In the linear equation \( T = 33 + 0.25c \): - \( T \) represents the temperature in degrees Fahrenheit. - \( c \) represents the number of cricket chirps per minute. - **0.25** is the **slope** of the equation. **Interpretation of 0.25:** The slope indicates how much the temperature changes with each additional chirp. Specifically, for **every one additional chirp per minute**, the temperature increases by **0.25 degrees Fahrenheit**. So, the number **0.25** represents the rate at which the temperature rises for each increase in the number of cricket chirps per minute. **Example:** - If a cricket chirps 10 times in a minute, the temperature would be: \[ T = 33 + 0.25 \times 10 = 33 + 2.5 = 35.5^\circ \text{F} \] - If the chirp rate increases to 20 chirps per minute: \[ T = 33 + 0.25 \times 20 = 33 + 5 = 38^\circ \text{F} \] This linear relationship helps predict the temperature based on the cricket's chirping rate. **Summary:** The number 0.25 indicates that each additional chirp per minute raises the temperature by 0.25 °F. **Answer:** The number 0.25 indicates that each additional chirp per minute raises the temperature by 0.25 °F.