# Full analysis performed using xlabs shot data analysis code version 15-Aug-2018
------------------------------------------------------------
Shot x2s4111 - 80%Ne condition
Driver condition is He:0.8,Ar:0.2.
Test gas is gasgiant_h285ne.
The X2 nozzle is in use.
------------------------------------------------------------
Shock tube nominal fill pressure is 2000.0 Pa, actual fill pressure was 2000.0 Pa.
Acceleration tube nominal fill pressure is 1.0 Pa, actual fill pressure was 1.0 Pa.
------------------------------------------------------------
Any notes about the shot are:
None.
------------------------------------------------------------
# Curve fit shock speeds (with 1-sigma uncertainty)
st1-at8 = 4883.79 +- 732.65 m/s (using sensors ['st1', 'st2', 'st3', 'at1', 'at2', 'at3', 'at4', 'at5', 'at6', 'at7', 'at8'])
at1-at8 = 3261.69 +- 943.57 m/s (using sensors ['at1', 'at2', 'at3', 'at4', 'at5', 'at6', 'at7', 'at8'])
at4-at8 = 1078.67 +- 730.94 m/s (using sensors ['at4', 'at5', 'at6', 'at7', 'at8'])
------------------------------------------------------------
# Trigger (shock arrival) times
sd1 = 0.000637 +- 2.00e-07 s (0.0006368 - 0.0006372 s)
sd2 = 0.0007052 +- 0.00e+00 s (0.0007052 - 0.0007052 s)
sd3 = 0.0007814 +- 2.00e-07 s (0.0007812 - 0.0007816 s)
st1 = 0.0010636 +- 0.00e+00 s (0.0010636 - 0.0010636 s)
st2 = 0.0011468 +- 0.00e+00 s (0.0011468 - 0.0011468 s)
st3 = 0.001313 +- 2.00e-07 s (0.0013128 - 0.0013132 s)
at1 = 0.0014216 +- 0.00e+00 s (0.0014216 - 0.0014216 s)
at2 = 0.0014506 +- 2.00e-07 s (0.0014504 - 0.0014508 s)
at3 = 0.0014786 +- 2.00e-07 s (0.0014784 - 0.0014788 s)
at4 = 0.0016018 +- 2.00e-07 s (0.0016016 - 0.001602 s)
at5 = 0.0016406 +- 2.00e-07 s (0.0016404 - 0.0016408 s)
at6 = 0.0016778 +- 2.00e-07 s (0.0016776 - 0.001678 s)
at7 = 0.0019916 +- 0.00e+00 s (0.0019916 - 0.0019916 s)
at8 = 0.0020326 +- 2.00e-07 s (0.0020324 - 0.0020328 s)
pt1 = 0.0019722 +- 2.00e-07 s (0.001972 - 0.0019724 s)
pt2 = 0.0019726 +- 2.00e-07 s (0.0019724 - 0.0019728 s)
pt3 = 0.0019698 +- 2.00e-07 s (0.0019696 - 0.00197 s)
------------------------------------------------------------
# Experimental Time-of-flight Shock speeds
sd1-sd2 = 3416.42 +- 46.06 m/s (1.35 %)
sd1-sd3 = 3227.15 +- 22.44 m/s (0.70 %)
sd2-sd3 = 3057.74 +- 42.00 m/s (1.37 %)
st1-st3 = 4125.90 +- 13.94 m/s (0.34 %)
st1-st2 = 6189.90 +- 45.18 m/s (0.73 %)
st2-st3 = 3092.66 +- 19.31 m/s (0.62 %)
at1-at3 = 6298.25 +- 73.43 m/s (1.17 %)
at1-at2 = 6137.93 +- 142.35 m/s (2.32 %)
at2-at3 = 6464.29 +- 151.64 m/s (2.35 %)
at3-at4 = 6444.81 +- 34.41 m/s (0.53 %)
at4-at6 = 6657.89 +- 56.81 m/s (0.85 %)
at4-at5 = 6597.94 +- 110.70 m/s (1.68 %)
at5-at7 = 886.04 +- 8.12 m/s (0.92 %)
at5-at6 = 6720.43 +- 116.68 m/s (1.74 %)
at6-at8 = 284.67 +- 7.98 m/s (2.80 %)
at6-at7 = 194.39 +- 9.02 m/s (4.64 %)
at7-at8 = 975.61 +- 69.96 m/s (7.17 %)
------------------------------------------------------------
Test section flow arrival time is 0.00197153333333 s (1971.53 microseconds).
Found using transducers ['pt1', 'pt2', 'pt3'].
------------------------------------------------------------
trigbox arrival at 0.0019998 s (1999.80 microseconds).
This is 28.27 microseconds after flow arrival.
------------------------------------------------------------
Now printing basic results of experimental equilibrium run of Pitot program.
Vs1 = 3057.74 m/s.
Vs2 = 6720.43 m/s.
Nozzle entry pressure (p7) 125.928708702 Pa.
Nozzle exit pressure (p8) 7.59 Pa (using area ratio of 5.64).
Conehead pressure is 488.514417195 Pa.
------------------------------------------------------------
Now printing basic results of theoretical perfect gas run of Pitot program.
Vs1 = 4521.09 m/s.
Vs2 = 10323.69 m/s.
Nozzle entry pressure (p7) 12.93 Pa.
Nozzle exit pressure (p8) 0.80 Pa (using area ratio of 5.64).
Conehead pressure is 184.50 Pa.
------------------------------------------------------------
# Experimental hold time data from the x-t diagram
All hold time data is compared to the nominal solution on the experimental x-t diagram.
------------------------------------------------------------
Using ['st1', 'st2', 'st3'] the hold time is -5.93262347716e-05 s (-59.3262 microseconds).
The slope and intercept used to find this are 0.000242345028717 and 0.000230156482825.
From the linear regression, R**2 = 0.964187878845, the p value is 0.121205419603, the std err is 4.6705529942e-05.
------------------------------------------------------------
Using ['at1', 'at2', 'at3'] the hold time is 3.0503368026e-05 s (30.5034 microseconds).
The slope and intercept used to find this are 0.000158762918594 and 0.000605669738024.
From the linear regression, R**2 = 0.999776417807, the p value is 0.00951951700366, the std err is 2.37419417977e-06.
------------------------------------------------------------
Using ['at4', 'at5', 'at6'] the hold time is 6.32283189752e-05 s (63.2283 microseconds).
The slope and intercept used to find this are 0.000150203086921 and 0.000667652193629.
From the linear regression, R**2 = 0.999971823274, the p value is 0.00337930527904, the std err is 7.9731556264e-07.
------------------------------------------------------------
# Channel names
sd1
sd2
sd3
st1
st2
st3
at1
at2
at3
at4
at5
at6
at7
at8
pt1
pt2
pt3
hpv1
mwirout
photodiode
tctest
trigbox
uvout
------------------------------------------------------------