Interpreting Constant A & Deriving k in Air Pressure Decay

fuzz95
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hey guys! I'm really confused as to what this question is trying to ask me!
can someone help me out :)

Air pressure decays approximately exponentially at about 0.4 per cent for each rise of 30 metres above sea level. If we let p = p(h) denote air pressure (measured in some appropriate units) at h metres above sea level, then we can model this phenomenon using the equation: p = p(h) = Aekh for some appropriate constants A and k.

Give an interpretation for the constant A. (We never need to know the actual numerical value of A to do the rest of this exercise.)
?and how do i derive this k = ln(0.996) / 30 ??thanks!
 
on Phys.org
Hi, and welcome to the forum!

fuzz95 said:
If we let p = p(h) denote air pressure (measured in some appropriate units) at h metres above sea level, then we can model this phenomenon using the equation: p = p(h) = Aekh for some appropriate constants A and k.
This must be $p(h)=Ae^{kh}$. In plain text, it is customary to write exponentiation using ^, and don't forget the order of operations: exponentiation is done before multiplication. Therefore, in plain text p(h) can be written as A*e^(kh).

fuzz95 said:
Give an interpretation for the constant A.
Hint: At what height the pressure is $A$?

fuzz95 said:
and how do i derive this k = ln(0.996) / 30 ??
The statement "Air pressure decays approximately exponentially at about 0.4 per cent for each rise of 30 metres above sea level" amounts to
\[
p(h+30)=0.996p(h).
\]
Substitute the definition of $p$ and see if you can solve this equation for $k$.
 
okay so i was able to do the first part!

however still have no idea how to go about doing the second half??!
 
fuzz95 said:
however still have no idea how to go about doing the second half??!

Evgeny.Makarov said:
The statement "Air pressure decays approximately exponentially at about 0.4 per cent for each rise of 30 metres above sea level" amounts to
\[
p(h+30)=0.996p(h).
\]
Substitute the definition of $p$ and see if you can solve this equation for $k$.
Well, let me do this for you. Substituting $p(h)=Ae^{kh}$ into the equation above gives
\[
Ae^{k(h+30)}=0.996Ae^{kh}.
\]
Can you solve it for $k$? If not, do you know basic properties of exponeniation? Do you know that $\ln(x)$ is the inverse of $e^x$? Have you seen any exponential equations solved? Have you solved any yourself? You may need to do some preparatory work.
 

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