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AdditionalSqrt #4452

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Oct 24, 2024
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2 changes: 1 addition & 1 deletion Modelica/ComplexBlocks/ComplexMath/ComplexToPolar.mo
Original file line number Diff line number Diff line change
Expand Up @@ -12,7 +12,7 @@ block ComplexToPolar "Converts complex to polar representation"
parameter Boolean useConjugateInput=false
"If true, input is processed conjugate complex";
equation
len = (u.re^2 + u.im^2)^0.5;
len = sqrt(u.re^2 + u.im^2);
phi = (if useConjugateInput then Modelica.Math.atan2(-u.im, u.re) else
Modelica.Math.atan2(u.im, u.re));

Expand Down
2 changes: 1 addition & 1 deletion Modelica/ComplexMath.mo
Original file line number Diff line number Diff line change
Expand Up @@ -488,7 +488,7 @@ end Vectors;
input Complex c "Complex number";
output Real result "= abs(c)";
algorithm
result := (c.re^2 + c.im^2)^0.5; //changed from sqrt
result := .sqrt(c.re^2 + c.im^2); // Real, not complex sqrt
annotation(Inline=true, Documentation(info="<html>
<p>This function returns the Real absolute of the Complex input, i.e., its length.</p>
</html>"));
Expand Down
6 changes: 3 additions & 3 deletions Modelica/Fluid/Dissipation.mo
Original file line number Diff line number Diff line change
Expand Up @@ -4417,7 +4417,7 @@ This record is used as <strong>input record</strong> for the pressure loss funct
DP := 0.5*IN_var.zeta_TOT*
Modelica.Fluid.Dissipation.Utilities.Functions.General.SmoothPower(
m_flow,
(IN_con.dp_smooth/(0.5*IN_var.zeta_TOT*IN_var.rho))^0.5*IN_var.rho
sqrt(IN_con.dp_smooth/(0.5*IN_var.zeta_TOT*IN_var.rho))*IN_var.rho
*IN_con.A_cross,
2)/(IN_var.rho*(IN_con.A_cross)^2);
annotation (Inline=true, smoothOrder(normallyConstant=IN_con) = 2,
Expand Down Expand Up @@ -4463,7 +4463,7 @@ Generally this function is numerically best used for the <strong>incompressible
Modelica.Fluid.Dissipation.Utilities.Functions.General.SmoothPower(
dp,
IN_con.dp_smooth,
0.5)/(0.5*IN_var.zeta_TOT*IN_var.rho)^0.5;
0.5)/sqrt(0.5*IN_var.zeta_TOT*IN_var.rho);
annotation (Inline=true, smoothOrder(normallyConstant=IN_con) = 2,
inverse(dp=Modelica.Fluid.Dissipation.PressureLoss.General.dp_pressureLossCoefficient_DP(
IN_con,
Expand Down Expand Up @@ -12865,7 +12865,7 @@ In the picture below the input x is increased from 0 to 1. The range of interpol
"Rectangular cross sectional area", enable=geometry ==
Modelica.Fluid.Dissipation.Utilities.Types.GeometryOfInternalFlow.Rectangular));
//triangular(5)
SI.Length a_tri=d_cir*(1 + 2^0.5) "Length of base line" annotation (Dialog(
SI.Length a_tri=d_cir*(1 + sqrt(2)) "Length of base line" annotation (Dialog(
group="Rectangular cross sectional area", enable=geometry ==
Modelica.Fluid.Dissipation.Utilities.Types.GeometryOfInternalFlow.Rectangular));
SI.Length h_tri=0.5*a_tri
Expand Down
12 changes: 6 additions & 6 deletions Modelica/Media/Water/IF97_Utilities.mo
Original file line number Diff line number Diff line change
Expand Up @@ -229,7 +229,7 @@ email: [email protected]
"IF97 medium function boundary23ofp called with too low pressure\n"
+ "p = " + String(p) + " Pa <= " + String(triple.ptriple) +
" Pa (triple point pressure)");
t := n[4] + ((pi - n[5])/n[3])^0.5;
t := n[4] + sqrt((pi - n[5])/n[3]);
end boundary23ofp;

function hlowerofp5
Expand Down Expand Up @@ -423,7 +423,7 @@ email: [email protected]
"IF97 medium function hlowerofp2 called with too low pressure\n" +
"p = " + String(p) + " Pa <= " + String(triple.ptriple) +
" Pa (triple point pressure)");
q1 := 572.54459862746 + 31.3220101646784*(-13.91883977887 + pi)^0.5;
q1 := 572.54459862746 + 31.3220101646784*sqrt(-13.91883977887 + pi);
q2 := -0.5 + 540./q1;
o[1] := q1*q1;
o[2] := o[1]*o[1];
Expand Down Expand Up @@ -514,7 +514,7 @@ email: [email protected]
"IF97 medium function slowerofp2 called with too low pressure\n" +
"p = " + String(p) + " Pa <= " + String(triple.ptriple) +
" Pa (triple point pressure)");
q1 := 572.54459862746 + 31.3220101646784*(-13.91883977887 + pi)^0.5;
q1 := 572.54459862746 + 31.3220101646784*sqrt(-13.91883977887 + pi);
q2 := -0.5 + 540.0/q1;
o[1] := pi*pi;
o[2] := o[1]*pi;
Expand Down Expand Up @@ -3143,9 +3143,9 @@ email: [email protected]
o[7] := 14.9151086135300*o[6];
o[8] := 405113.40542057 + o[5] + o[7];
p_sat := 16.0e6*o[8]*o[8]*o[8]*o[8]*1/(3.2325550322333e6 -
12020.8247024700*o[4] + 17.0738469400920*o[6] + (-4.0*(-724213.16703206
12020.8247024700*o[4] + 17.0738469400920*o[6] + sqrt(-4.0*(-724213.16703206
+ 1167.05214527670*o[4] + o[6])*o[8] + (-3.2325550322333e6 +
12020.8247024700*o[4] - 17.0738469400920*o[6])^2.0)^0.5)^4.0;
12020.8247024700*o[4] - 17.0738469400920*o[6])^2.0))^4.0;
annotation (derivative=psat_der);
end psat;

Expand Down Expand Up @@ -4093,7 +4093,7 @@ Ordinary Water Substance<br>
deltam1 := delta - 1.0;
tau := tstar/T;
taum1 := tau - 1.0;
Psi0 := 1/(n0 + (n1 + (n2 + n3*tau)*tau)*tau)/(tau^0.5);
Psi0 := 1/(n0 + (n1 + (n2 + n3*tau)*tau)*tau)/(sqrt(tau));
Psi1 := 0.0;
tfun := 1.0;
for i in 1:6 loop
Expand Down