********************** This is a 2 order run ********************** ******* INPUT: ******* error in error in year doy time radii radius angle angle datatype 2008 85 18:48: 3 1.43 +/- 0.04 96.6 +/- 0.1 MK4 K-Coronameter 2008 85 18:54:11 1.77 +/- 0.04 97.0 +/- 0.1 MK4 K-Coronameter 2008 85 18:57:33 2.22 +/- 0.06 101.0 +/- 0.1 MK4 K-Coronameter **************************************** Structure being measured: Top of Loop **************************************** ******** OUTPUT: ******** START TIME: tstart=DOY 85 18:47 from derivative = 0 Event begins at 1.43 Solar Radii Origin defined at DOY 85 18:40 RADIAL INFORMATION: RADIAL ACCELERATION = 0.318E+01 +/- 0.108E-04 km/sec**2 The computed RADIAL coefficients and errors FROM NLLST2 are: c(1) = 0.192E+01 +/- 0.390E-05 [solar radii] c(2) = -0.128E+00 +/- 0.688E-06 [radii/min] c(2) = -0.148E+04 +/- 0.798E-02 [km/sec] c(3) = 0.823E-02 +/- 0.280E-07 [radii/min**2] c(3) = 0.318E+01 +/- 0.108E-04 [km/sec**2] c(4) = 0.000E+00 +/- 0.000E+00 [radii/min**3]/ ANGULAR INFORMATION: ANGULAR ACCELERATION= 0.1146E-05 +/- 0.0000E+00[radians/sec**2] The computed ANGULAR coefficients and errors FROM NLLST2 are: a(1) = 110. +/- 0. [degrees] a(2) = -0.256E+01 +/- 0.000E+00 [degrees/min] a(2) = -0.745E-03 +/- 0.000E+00 [rad/sec] a(3) = 0.118E+00 +/- 0.000E+00 [degrees/min**2] a(3) = 0.115E-05 +/- 0.000E+00 [rad/sec**2] The RADIAL velocity at 18:48 = 57. km/sec The RADIAL acceleration at 18:48 = 0.2E-01 km/ sec**2 The RADIAL velocity at 18:54 = 1229. km/sec The RADIAL acceleration at 18:54 = 0.2E-01 km/ sec**2 The RADIAL velocity at 18:57 = 1872. km/sec The RADIAL acceleration at 18:57 = 0.2E-01 km/ sec**2 ********************************************************** The following info is for estimating goodness of the fit ********************************************************** Number data points = number of coefficients. No error analysis is possible. Correlation coefficient is not computable!