User:Milton Beychok/Sandbox: Difference between revisions

Revision as of 19:40, 24 March 2010

Rocket thrust and specific impulse

Thrust is the force (F) which moves a rocket through the air. Thrust is generated by the rocket engine through the reaction of accelerating a mass of gas. The gas is accelerated to the the rear and the rocket is accelerated in the opposite direction. Force may be mathematically expressed as:^[1]^[2]

F={\dot {m}}V_{e}+(p_{e}-P_{o})A_{e}

and also this form, by defining a new term v_eq :

F={\dot {m}}V_{eq}={\dot {m}}\left[V_{e}+{\frac {(p_{e}-P_{o})A_{e}}{\dot {m}}}\right]

The total impulse of a rocket ( I ) is defined as the average thrust multiplied by the total time ( t ) of propellant burning:

I=F\Delta t=\int {Fdt}=\int {{\dot {m}}V_{eq}\,dt}={\dot {m}}V_{eq}

The specific impulse ( I_sp ) is the total impulse divided by the weight of the exhaust gas:

I_{sp}=I/{\text{weight}}={\frac {I}{{\dot {m}}g_{o}}}={\frac {F}{{\dot {m}}g_{o}}}

where:

F = force in newtons, N

ṁ = mass flow rate of exhaust gas, kg/s

V_e = exhaust velocity at nozzle exit, m/s

p_e = absolute pressure of exhaust gas at nozzle exit, Pa

p_o = external ambient pressure, Pa

A_e = cross-sectional area of nozzle exhaust exit, m²

↑ Rocket Thrust Summary from a website page of the National Aeronautics and Space Administration (NASA)
↑ Specific Impulse from a website page of the National Aeronautics and Space Administration (NASA)

[1] Rocket Thrust Summary from a website page of the National Aeronautics and Space Administration (NASA)

[2] Specific Impulse from a website page of the National Aeronautics and Space Administration (NASA)

[1]

[2]

@@ Line 3: / Line 3: @@
 Thrust is the [[force]] ('''''F''''')  which moves a rocket through the air. Thrust is generated by the rocket engine through the reaction  of [[acceleration|accelerating]] a mass of gas. The gas is accelerated to the the rear and the rocket is accelerated in the opposite direction. Force may be mathematically expressed as:<ref>[http://exploration.grc.nasa.gov/education/rocket/rktthsum.html Rocket Thrust Summary] from a website page of the [[National Aeronautics and Space Administration]] (NASA)</ref><ref>[http://exploration.grc.nasa.gov/education/rocket/specimp.html Specific Impulse] from a website page of the National Aeronautics and Space Administration (NASA)</ref>
-:<math>F = \dot {m} V_e + (p_e - P_o)A_c</math>
+:<math>F = \dot {m} V_e + (p_e - P_o)A_e</math>
 and also this form, by defining a new term '''''v<sub>eq</sub>'''''&thinsp;:
-:<math>F = \dot {m} V_{eq} = \dot {m} \left [V_e + \frac {(p_e - P_o)A_c}{\dot {m}} \right ]</math>
+:<math>F = \dot {m} V_{eq} = \dot {m} \left [V_e + \frac {(p_e - P_o)A_e}{\dot {m}} \right ]</math>
 The total impulse of a rocket (&thinsp;'''''I'''''&thinsp;) is defined as the average thrust multiplied by the total time (&thinsp;'''''t'''''&thinsp;) of propellant burning:
@@ Line 18: / Line 18: @@
 :where:
-:'''''F''''' = Force (in Newtons)
+:'''''F''''' = force in newtons, N
+:'''''&#7745;'''''&thinsp; = mass flow rate of exhaust gas, kg/s
+:'''''V<sub>e</sub>''''' = exhaust velocity at nozzle exit, m/s
+:'''''p<sub>e</sub>''''' = absolute pressure of exhaust gas at nozzle exit, Pa
+:'''''p<sub>o</sub>''''' = external ambient pressure, Pa
+:'''''A<sub>e</sub>''''' = cross-sectional area of nozzle exhaust exit, m²
 {{reflist}}

User:Milton Beychok/Sandbox: Difference between revisions

Revision as of 19:40, 24 March 2010

Rocket thrust and specific impulse

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