Four "Master" files are included in the package.

Qref calculated as Qref = gam/2*Pref*Mref^2, where gam = 1.4.


1. Coefficient of Friction: Master_Exp_cf.dat
  -  Wall shear stress data was collected via Oil Film Interferometry (OFI). Data were collected at many individual discrete streamwise locations and overlapping locations were combined statistically to produce the data included here. The uncertainty of viscosity is accounted for in the measurements, and overlapping measurements are combined by taking the max/min envelope of the measurements with their uncertainties.
  - variables:
    - x/c = the streamwise coordinate, normalized by the hump chord length
    - Cf = the coefficient of friction 
    - Uncertainties:
      - Cfmin = the lower bound of the compiled statistics for Cf across OFI datasets
      - Cfmax = the upper bound of the compiled statistics for Cf across OFI datasets


2. Coefficient of Pressure: Master_Exp_cp.dat
  - Wall pressure data was collected using Pressure Sensitive Paint (PSP). The coefficient of pressure was then defined as Cp = 2/(gam*Mref^2) * (p/pref - 1), where gam = 1.4, and p was the pressure values from the PSP. Many runs were performed with PSP painted onto the model from -0.085 < x/c < 2.10.  All of the individual runs were combined statistically to produce the data included here, along with the 95% confidence intervals. 
  - variables:
    - x/c = the streamwise coordinate, normalized by the hump chord length
    - Cp = the coefficient of pressure 
    - Uncertainties:
      - Cpmin = the lower bound of a 95% confidence for Cp across PSP datasets
      - Cpmax = the upper bound of a 95% confidence for Cp across PSP datasets


3. Two-dimensional PIV flowfield: Master_Exp_flowfield.dat
  - Two-dimensional flowfield data was collected via Particle Image Velocimetry (PIV). Seven overlapping windows were used spanning from -0.10 < x/c < 2.50 and from 0.35 < r/c < 0.65. For each window, ~3500 independent snapshots were collected. The snapshots and the overlapping portions of the windows were then statistically combined to produce the data included here, along with 95% confidence intervals. 
  - variables:
    - x/c = the streamwise coordinate, normalized by the hump chord length
    - r/c = the radial coordinate (from the model centerline), normalized by the hump chord length
    - u/u_ref = the x-oriented velocity, normalized by the reference velocity
    - v/u_ref = the radially-oriented velocity, normalized by the reference velocity
    - w/u_ref = {was not collected with the planar PIV}
    - uu/u_ref^2 = the x-oriented normal turbulence stress, normalized by the squared reference velocity
    - vv/u_ref^2 = the radially-oriented normal turbulence stress, normalized by the squared reference velocity
    - ww/u_ref^2 = {was not collected with the planar PIV}
    - uv/u_ref^2 = the Reynolds shear stress, normalized by the squared reference velocity
    - uw/u_ref^2 = {was not collected with the planar PIV}
    - vw/u_ref^2 = {was not collected with the planar PIV}
    - Uncertainties:
      - Uu/u_ref = the symmetric 95% confidence interval for the ratio of the streamwise velocity to the reference velocity
      - Uv/u_ref = the symmetric 95% confidence interval for the ratio of the radial velocity to the reference velocity
      - Uuu/u_ref^2 = the symmetric 95% confidence interval for the ratio of the streamwise normal stress to the squared reference velocity
      - Uvv/u_ref^2 = the symmetric 95% confidence interval for the ratio of the radial normal stress to the squared reference velocity
      - Uuv/u_ref^2_min = the lower bound of a 95% confidence for the ratio of the Reynolds shear stress to the squared reference velocity
      - Uuv/u_ref^2_max = the upper bound of a 95% confidence for the ratio of the Reynolds shear stress to the squared reference velocity


4. Profiles at locations of interest: Master_Exp_profiles.dat
  -Individual profiles of variables of interest taken from the PIV flowfield data at specific locations of interest along the model are included. Each location's x/c is listed in the ZONE headers and as the constant x/c value within each ZONE's dataset. Profiles are provided at the separation and reattachment locations as defined by the other methods, and at the midpoint between the separation and reattachment locations. Confidence intervals are included.
  - variables:
    - x/c = the streamwise coordinate, normalized by the hump chord length
    - r/c = the radial coordinate (from the model centerline), normalized by the hump chord length
    - u/u_ref = the x-oriented velocity, normalized by the reference velocity
    - v/u_ref = the radially-oriented velocity, normalized by the reference velocity
    - w/u_ref = {was not collected with the planar PIV}
    - uu/u_ref^2 = the x-oriented normal turbulence stress, normalized by the squared reference velocity
    - vv/u_ref^2 = the radially-oriented normal turbulence stress, normalized by the squared reference velocity
    - ww/u_ref^2 = {was not collected with the planar PIV}
    - uv/u_ref^2 = the Reynolds shear stress, normalized by the squared reference velocity
    - uw/u_ref^2 = {was not collected with the planar PIV}
    - vw/u_ref^2 = {was not collected with the planar PIV}
    - Uncertainties:
      - Uu/u_ref = the symmetric 95% confidence interval for the ratio of the streamwise velocity to the reference velocity
      - Uv/u_ref = the symmetric 95% confidence interval for the ratio of the radial velocity to the reference velocity
      - Uuu/u_ref^2 = the symmetric 95% confidence interval for the ratio of the streamwise normal stress to the squared reference velocity
      - Uvv/u_ref^2 = the symmetric 95% confidence interval for the ratio of the radial normal stress to the squared reference velocity
      - Uuv/u_ref^2_min = the lower bound of a 95% confidence for the ratio of the Reynolds shear stress to the squared reference velocity
      - Uuv/u_ref^2_max = the upper bound of a 95% confidence for the ratio of the Reynolds shear stress to the squared reference velocity