Asked by Sydney
For beginner parachutists, the terminal velocity must be less than 5.00 m/s, and the parachutes used have a k-value that is normally distributed with a mean of 2.05/s and a standard deviation of 0.04/s. If the acceleration due to gravity is 9.81 m/s^2, determine the probability, to the nearest thousandth, that the terminal velocity is less than 5.00 m/s.
Please help me, the help in the last question was greatly appreciated. Thank-you!
Please help me, the help in the last question was greatly appreciated. Thank-you!
Answers
Answered by
Sydney
Somebody please help me, I am really having problems. Thank-you!
Answered by
MathMate
Could you please post the relevant equations and your attempt at the solution?
What is a k-value for a parachute?
Thanks
What is a k-value for a parachute?
Thanks
Answered by
Sydney
Okay, relevant equations:
v(subscript)t=g/k
or
k=g/v(subscript)t
My attempt at the soloution, honestly, I have no clue, me and a friend have attempted this question and we still cannot figure it out. Please help me, I am totally lost.
v(subscript)t=g/k
or
k=g/v(subscript)t
My attempt at the soloution, honestly, I have no clue, me and a friend have attempted this question and we still cannot figure it out. Please help me, I am totally lost.
Answered by
Damon
so v mean = 9.81/2.05 = 4.785 m/s
k one sigma lower = 2.05 -0.04 = 2.01/s
velocity 1 sigma above mean = 9.81/2.01 = 4.881 /s
so
sigma of velocity = 4.881 - 4.785 = .095
now 5.00 is how many sigmas above mean?
5.00 - 4.785 = .215
and z = .215/.095 = 2.26 sigmas above mean (pretty improbable)
I only have a crude normal distribution table hgere but here are two values:
z = 2.2 then F(z) = .986
z = 2.3 then F(z) = .989
so we are talking around .988
k one sigma lower = 2.05 -0.04 = 2.01/s
velocity 1 sigma above mean = 9.81/2.01 = 4.881 /s
so
sigma of velocity = 4.881 - 4.785 = .095
now 5.00 is how many sigmas above mean?
5.00 - 4.785 = .215
and z = .215/.095 = 2.26 sigmas above mean (pretty improbable)
I only have a crude normal distribution table hgere but here are two values:
z = 2.2 then F(z) = .986
z = 2.3 then F(z) = .989
so we are talking around .988
Answered by
MathMate
You and your mate would be better off reading something about terminal velocity. You cannot post questions to Jiskha in the exam hall! :)
Here are some background reading:
this one from NASA
http://exploration.grc.nasa.gov/education/rocket/termvr.html
here's some lighter reading:
http://www.northallertoncoll.org.uk/physics/module%202/terminal%20velocity/terminal%20velocity.htm
and here's one on statistics:
http://en.wikipedia.org/wiki/Standard_deviation
It's the last one that concerns you most.
k=g/vt
so
vt=g/k
g=9.81 m/s/s
k=2.05 (mean value)
so the mean landing velocity is
vt=9.81/2.05=4.785
The minimum value (kmin) of k to have a landing velocity of 5.00 m/s is
5=9.81/km
or
kmin=9.81/5=1.962
Difference from mean
= 2.05-1.962
=0.088
Standard deviation (meausure of variability of the k-value)
= 0.04
Therefore, a parachute has to have a value of k at 0.088/0.04=2.2 standard deviations below the mean value to have a landing velocity higher than 5 m/s.
If you look up a table of normal distribution for a tail end of 2.2 standard deviations (sigma), you will find that the probability is 0.0139, i.e. there is a 1.39% chance that the skydivers will land at more than 5 m/s.
The table is available here:
http://www.math.unb.ca/~knight/utility/NormTble.htm
This is a quickie that does not really help you with your exams. Do your reading and prepare yourself accordings.
Good luck.
Here are some background reading:
this one from NASA
http://exploration.grc.nasa.gov/education/rocket/termvr.html
here's some lighter reading:
http://www.northallertoncoll.org.uk/physics/module%202/terminal%20velocity/terminal%20velocity.htm
and here's one on statistics:
http://en.wikipedia.org/wiki/Standard_deviation
It's the last one that concerns you most.
k=g/vt
so
vt=g/k
g=9.81 m/s/s
k=2.05 (mean value)
so the mean landing velocity is
vt=9.81/2.05=4.785
The minimum value (kmin) of k to have a landing velocity of 5.00 m/s is
5=9.81/km
or
kmin=9.81/5=1.962
Difference from mean
= 2.05-1.962
=0.088
Standard deviation (meausure of variability of the k-value)
= 0.04
Therefore, a parachute has to have a value of k at 0.088/0.04=2.2 standard deviations below the mean value to have a landing velocity higher than 5 m/s.
If you look up a table of normal distribution for a tail end of 2.2 standard deviations (sigma), you will find that the probability is 0.0139, i.e. there is a 1.39% chance that the skydivers will land at more than 5 m/s.
The table is available here:
http://www.math.unb.ca/~knight/utility/NormTble.htm
This is a quickie that does not really help you with your exams. Do your reading and prepare yourself accordings.
Good luck.
Answered by
Sydney
Thank-you, very much!!!
There are no AI answers yet. The ability to request AI answers is coming soon!