73   CeedScalar U_infty = Norm3(S_infty.Y.velocity);  in BlasiusSolution()
84   CeedScalar Y[5];  in BlasiusSolution()  local
85   Y[1] = U_infty * f[1];  in BlasiusSolution()
86   Y[2] = 0.5 * sqrt(nu * U_infty / (x0 + x[0] - x_inflow)) * (eta * f[1] - f[0]);  in BlasiusSolution()
87   Y[3] = 0.;  in BlasiusSolution()
88   Y[4] = S_infty.Y.temperature * h[0];  in BlasiusSolution()
89   Y[0] = rho_infty / h[0] * Rd * Y[4];  in BlasiusSolution()
90   return StateFromY(blasius->newt_ctx.gas, Y);  in BlasiusSolution()
108   const CeedScalar U_infty = Norm3(S_infty.Y.velocity);  in ICsBlasius()
135   const CeedScalar            U_infty     = Norm3(S_infty.Y.velocity);  in Blasius_Inflow()
154       s.Y         = StatePrimitiveFromConservative(gas, s.U);  in Blasius_Inflow()
157       s.Y         = StatePrimitiveFromConservative(gas, s.U);  in Blasius_Inflow()
190   const CeedScalar            U_infty     = Norm3(S_infty.Y.velocity);  in Blasius_Inflow_Jacobian()
208       CeedScalar dE_internal = drho * gas.cv * S_infty.Y.temperature;  in Blasius_Inflow_Jacobian()
209       CeedScalar dE_kinetic  = .5 * drho * Dot3(s.Y.velocity, s.Y.velocity);  in Blasius_Inflow_Jacobian()
211       dP                     = drho * Rd * S_infty.Y.temperature;  // interior rho with exterior T  in Blasius_Inflow_Jacobian()
219     const CeedScalar u_normal = Dot3(normal, s.Y.velocity);  in Blasius_Inflow_Jacobian()
223       v[j + 1][i] = -wdetJb * (drho * u_normal * s.Y.velocity[j] + normal[j] * dP);  in Blasius_Inflow_Jacobian()