The formula to calculate the Heat to Power Ratio (HPR) is:
\[ HPR = \frac{H}{P} \]
Where:
Let's say the heat output (H) is 500 units, and the power output (P) is 100 units. Using the formula:
\[ HPR = \frac{500}{100} = 5 \]
So, the heat to power ratio is 5.
Definition: The heat capacity ratio (γ) is the ratio of the heat capacity at constant pressure (Cp) to the heat capacity at constant volume (Cv).
Formula: \( \gamma = \frac{C_p}{C_v} \)
Example: \( \gamma = \frac{1005}{718} \)
Definition: Calculates the specific heat ratio (γ) for a given substance.
Formula: \( \gamma = \frac{C_p}{C_v} \)
Example: \( \gamma = \frac{1005}{718} \)
Definition: Steps to calculate the specific heat ratio (γ).
Formula: \( \gamma = \frac{C_p}{C_v} \)
Example: \( \gamma = \frac{1005}{718} \)
Definition: The equation to determine the heat capacity ratio (γ).
Formula: \( \gamma = \frac{C_p}{C_v} \)
Example: \( \gamma = \frac{1005}{718} \)
Definition: Steps to calculate the heat rate of a system.
Formula: \( \text{Heat Rate} = \frac{\text{Input Energy}}{\text{Output Power}} \)
Example: \( \text{Heat Rate} = \frac{5000}{1000} \)
Definition: The equation to convert power to heat energy.
Formula: \( Q = P \times t \)
Example: \( Q = 100 \times 3600 \)
Definition: The formula to convert electrical power to heat energy.
Formula: \( Q = P \times t \)
Example: \( Q = 200 \times 1800 \)
Definition: Calculates the heat energy produced from electrical power.
Formula: \( Q = P \times t \)
Example: \( Q = 150 \times 2400 \)
Definition: Converts electrical wattage to heat energy.
Formula: \( Q = P \times t \)
Example: \( Q = 250 \times 1200 \)
