Calculating Energy Usage for a Jet Airliner

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The discussion focuses on calculating the energy usage of a jet airliner, specifically its gravitational potential energy (GPE) and kinetic energy (KE). The GPE at 11,000 meters is calculated to be approximately 3.3 billion joules, while the KE is found to be around 1 x 10^16 joules. For part (c), participants discuss how to determine the amount of fuel needed to raise the jet's potential energy, factoring in the fuel's energy content and engine efficiency. The conversation emphasizes the importance of using precise calculations and units to avoid errors. Overall, the thread provides insights into solving energy-related physics problems in aviation.
girlinterrupt
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Hi,

Can someone please check my answers and possibly help with part c; I don't know where to begin on solving it.

Homework Statement



A 31000kg jet airliner is flying at 11000m doing 910 km/h.

(a) What is the jet’s gravitational potential energy (GPE) at 11000m? (GPE=0 at sea level)
(b) What is the jet’s kinetic energy (KE)?
(c) If the jet fuel used contains 30.3MJ of energy per litre and the jet engines are 30% efficient at converting the fuel’s
energy, how much fuel is used just to raise the jet’s potential from sea level to 11000m


The Attempt at a Solution


What is known:

m= 31000kg
h= 11000m
g=9.8m/s
v = 910km/h
e = 30.3 MJ/L

Answer:
a)
Gravitational Potential Energy:
U = mgh
U = 31000 x 9.8 x 11000
U = 3341800000 J = 3.3 x 10^9 J

b)

K = 1/2 mv^2
K = 1/2 31000 x 910000^2
K = 12835550000000000 = 1 x 1016 J

c) I have no idea where to start with this one!

Thanks, any help is greatly appreciated!
 
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Welcome to PF!

girlinterrupt said:
A 31000kg jet airliner is flying at 11000m doing 910 km/h.

(a) What is the jet’s gravitational potential energy (GPE) at 11000m? (GPE=0 at sea level)
(b) What is the jet’s kinetic energy (KE)?
(c) If the jet fuel used contains 30.3MJ of energy per litre and the jet engines are 30% efficient at converting the fuel’s
energy, how much fuel is used just to raise the jet’s potential from sea level to 11000m

Hi girlinterrupt! Welcome to PF! :smile:

You know from a) how many joules you need, so for c) just do the arithmetic, making allowance for the megajoules and the 30%! :smile:
 
Hi tiny-tim,

Firstly, thanks for the reply!

I'm finding it difficult to work out what the question was actually asking... I am so new to physics.

so basically if I think of the 30.3MJ per litre at 100% efficiency, I can work out the energy required at 30% efficiency... the thing that has thrown me in the question is "how much fuel is used"... but i suppose it is valid to equate it in terms of this...

30300000 J per litres of fuel * 3.3 (efficiency) = 99990000 J / Litre of Fuel

Sound good?
 
Hi girlinterrupt! :smile:
girlinterrupt said:
so basically if I think of the 30.3MJ per litre at 100% efficiency, I can work out the energy required at 30% efficiency... the thing that has thrown me in the question is "how much fuel is used"... but i suppose it is valid to equate it in terms of this...

30300000 J per litres of fuel * 3.3 (efficiency) = 99990000 J / Litre of Fuel

Sound good?

That's it!

Just two tips …

i] use 10^ or mega … if you write all those 0s, sooner or later you'll make a mistake

ii] why approximate, with 3.3 … the question deliberately makes the arithmetic easy, so why not use 10/3 exactly? :smile:
 
Thanks for the help and tips! :smile:

I Appreciate it!
 
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