Impact pressure: Difference between revisions

In compressible fluid dynamics, impact pressure (dynamic pressure) is the difference between total pressure (also known as pitot pressure or stagnation pressure) and static pressure.^[1][2] In aerodynamics notation, this quantity is denoted as ${\displaystyle q_c}$ or ${\displaystyle Q_c}$.

When input to an airspeed indicator, impact pressure is used to provide a calibrated airspeed reading. An air data computer with inputs of pitot and static pressures is able to provide a Mach number and, if static temperature is known, true airspeed.Template:Citation needed

Some authors in the field of compressible flows use the term dynamic pressure or compressible dynamic pressure instead of impact pressure.^[3][4]

In isentropic flow the ratio of total pressure to static pressure is given by:^[3]

${\displaystyle \frac{P_t}{P}={(1+\frac{\gamma -1}{2}{M}^2)}^{\frac{\gamma }{\gamma -1}}}$

where:

${\displaystyle P_t}$ is total pressure

${\displaystyle P}$ is static pressure

${\displaystyle \gamma }$ is the ratio of specific heats

${\displaystyle M}$ is the freestream Mach number

Taking ${\displaystyle \gamma }$ to be 1.4, and since ${\displaystyle P_t=P+q_c}$

${\displaystyle q_c=P[{(1+0.2M^2)}^{\frac{7}{2}}-1]}$

Expressing the incompressible dynamic pressure as ${\displaystyle \frac{1}{2}\gamma P{M}^2}$ and expanding by the binomial series gives:

${\displaystyle q_c=q(1+\frac{M^2}{4}+\frac{M^4}{40}+\frac{M^6}{1600}...)}$

where:

${\displaystyle q}$ is dynamic pressure

• Dynamic pressure
• Pitot-static system
• Pressure
• Static pressure

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