Respuesta :
Answer: The Propellant fraction is 0.87.
The payload fraction is 0.04.
Δv = 8991.81 m/s
Explanation: To determine the fractions, first, calculate the total mass of the rocket:
[tex]m_{t} = m_{prop} + m_{str} + m_{pay}[/tex]
[tex]m_{t} = 100,000 + 10,000 + 5,000[/tex]
[tex]m_{t} = 115,000[/tex]
The Propellant Fraction will be
[tex]m_{prop} = \frac{m_{prop}}{m_{t}}[/tex]
[tex]m_{prop} = \frac{100,000}{115,000}[/tex]
[tex]m_{prop} =[/tex] 0.87
The Payload Fraction is:
[tex]m_{pay} = \frac{m_{pay}}{m_{t}}[/tex]
[tex]m_{pay} = \frac{5,000}{115,000}[/tex]
[tex]m_{pay} =[/tex] 0.04
The value of Δv is calculated by the formula:
Δv = [tex]-V_{e}. ln(\frac{m_{final}}{m_{initial}} )[/tex]
The exhaust velocity ([tex]V_{e}[/tex]) is:
[tex]V_{e} = g_{0}.Isp[/tex]
[tex]V_{e} =[/tex] 9.81*450
[tex]V_{e} =[/tex] 4414.5
[tex]m_{final}[/tex] is the total mass after the rocket consume all the propellant and [tex]m_{initial}[/tex] is the total mass before the action.
Δv = [tex]-V_{e}. ln(\frac{m_{final}}{m_{initial}} )[/tex]
Δv = [tex]-4414.5.ln(\frac{15,000}{115,000} )[/tex]
Δv = - 4414.5.ln(0.13)
Δv = 8991.81
Δv will be 8991.81 m/s.
