Rocket
Consider a rocket is launched into -20°C atmosphere at 1,000 km/hr. What is its Mach Number if the air’s ratio of specific heats is 1.5? Assume the molecular weight of air is 29 kg/kmol, and note the universal gas constant is 8,314 J/(kmol·K).
Expand Hint
The Mach Number (Ma) is the ratio of fluid velocity to the speed of sound.
$$$Ma=\frac{V}{c}$$$
where
$$V$$
is the mean fluid velocity, and
$$c$$
is the local speed of sound.
Hint 2
The local speed of sound in an ideal gas is:
$$$c=\sqrt{kRT}$$$
where
$$k$$
is the ratio of specific heats,
$$R$$
is the specific gas constant, and
$$T$$
is the absolute temperature.
First, let’s find the local speed of sound in an ideal gas:
$$$c=\sqrt{kRT}$$$
where
$$k$$
is the ratio of specific heats,
$$R$$
is the specific gas constant, and
$$T$$
is the absolute temperature. To find
$$R$$
:
$$$R=\frac{\bar{R}}{(mol.wt_i)}$$$
where
$$\bar R$$
is the universal gas constant. Thus,
$$$R=\frac{8,314J(kmol)}{(kmol\cdot K)(29kg)}=286.69\frac{J}{kg\cdot K}=286.69\:\frac{m^2}{s^2\cdot K}$$$
The local speed of sound in air is:
$$$c=\sqrt{(1.5)(286.69\frac{m^2}{s^2\cdot K})(-20+273K)}=\sqrt{(430)(253)m^2/s^2}=329.8\:\frac{m}{s}$$$
The Mach Number (Ma) is the ratio of fluid velocity to the speed of sound:
$$$Ma=\frac{V}{c}$$$
where
$$V$$
is the mean fluid velocity, and
$$c$$
is the local speed of sound. Finally,
$$$Ma=\frac{1,000\frac{km}{hr}\cdot 1,000\frac{m}{km}}{329.8\frac{m}{s}\cdot 3,600\frac{s}{hr}}=\frac{1,000,000m/hr}{1,187,280m/hr}=0.84$$$
0.84
Time Analysis
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