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N |
Условия |
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1 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
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y=g(x) |
Y = Arctg(x) |
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G(x,y) |
G(x,y)=(1/Tg(x)*Exp(x)+Arcsin(y)*Arccos(y)) |
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V1 |
V1=G(x,y)*((1/Sqr(Cos(x)))*Exp(x)+Tg(x)*Exp(x)) |
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V2 |
V2=G(x,y)*((1/Sqrt(1-Sqr(y)))*Arccos(y)+Arcsin(y)*(-1/Sqrt(1-Sqr(y)))) |
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2 |
[a1;b1] |
0.1 <= X <= 0.8 |
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[a2;b2] |
0.1 <= Y <= 0.7 |
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[a3;b3] |
0.1 <= Z <= 0.9 |
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F(x,y,z) |
F(x,y,z)=-1/Sqr(Arcsin(x)*Arctg(x)+Sqr(y)*Ch(y)+Sin(z)*Tg(z)) |
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V1 |
V1=F(x,y,z)*((2*y)*Ch(y)+Sqr(y)*Sh(y))*(Cos(z)*Tg(z)+Sin(z)*(1/Sqr(Cos(z)))) |
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V2 |
V2=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Arctg(x)+Arcsin(x)*(1/(1+Sqr(x))))*(Cos(z)*Tg(z)+Sin(z)*(1/Sqr(Cos(z)))) |
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V3 |
V3=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Arctg(x)+Arcsin(x)*(1/(1+Sqr(x))))*((2*y)*Ch(y)+Sqr(y)*Sh(y)) |
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2 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
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y=g(x) |
Y = Arctg(x) |
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G(x,y) |
G(x,y)=Sh(Ch(x)*Sqr(x)+Sqrt(y)*Arccos(y)) |
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V1 |
V1=G(x,y)*(Sh(x)*Sqr(x)+Ch(x)*(2*x)) |
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V2 |
V2=G(x,y)*((1/(2*Sqrt(y)))*Arccos(y)+Sqrt(y)*(-1/Sqrt(1-Sqr(y)))) |
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2 |
[a1;b1] |
0.1 <= X <= 0.9 |
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[a2;b2] |
0.1 <= Y <= 0.5 |
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[a3;b3] |
0.1 <= Z <= 0.8 |
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F(x,y,z) |
F(x,y,z)=Sh(Arcsin(x)*Arccos(x)+Arcsin(y)*Sh(y)+Arccos(z)*Sin(z)) |
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V1 |
V1=F(x,y,z)*((1/Sqrt(1-Sqr(y)))*Sh(y)+Arcsin(y)*Ch(y))*((-1/Sqrt(1-Sqr(z)))*Sin(z)+Arccos(z)*Cos(z)) |
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V2 |
V2=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Arccos(x)+Arcsin(x)*(-1/Sqrt(1-Sqr(x))))*((-1/Sqrt(1-Sqr(z)))*Sin(z)+Arccos(z)*Cos(z)) |
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V3 |
V3=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Arccos(x)+Arcsin(x)*(-1/Sqrt(1-Sqr(x))))*((1/Sqrt(1-Sqr(y)))*Sh(y)+Arcsin(y)*Ch(y)) |
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3 |
1 |
[a;d] |
0.1 <= X <= 0.4 |
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y=g(x) |
Y = Sh(x) |
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G(x,y) |
G(x,y)=Cos(Exp(x)*Sqr(x)+Arcsin(y)*Sh(y)) |
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V1 |
V1=G(x,y)*(Exp(x)*Sqr(x)+Exp(x)*(2*x)) |
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V2 |
V2=G(x,y)*((1/Sqrt(1-Sqr(y)))*Sh(y)+Arcsin(y)*Ch(y)) |
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2 |
[a1;b1] |
0.1 <= X <= 0.5 |
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[a2;b2] |
0.1 <= Y <= 0.6 |
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[a3;b3] |
0.1 <= Z <= 0.7 |
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F(x,y,z) |
F(x,y,z)=-Cos(Ch(x)*Tg(x)+Arcsin(y)*Arccos(y)+Sqr(z)*Cos(z)) |
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V1 |
V1=F(x,y,z)*((1/Sqrt(1-Sqr(y)))*Arccos(y)+Arcsin(y)*(-1/Sqrt(1-Sqr(y))))*((2*z)*Cos(z)+Sqr(z)*(-Sin(z))) |
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V2 |
V2=F(x,y,z)*(Sh(x)*Tg(x)+Ch(x)*(1/Sqr(Cos(x))))*((2*z)*Cos(z)+Sqr(z)*(-Sin(z))) |
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V3 |
V3=F(x,y,z)*(Sh(x)*Tg(x)+Ch(x)*(1/Sqr(Cos(x))))*((1/Sqrt(1-Sqr(y)))*Arccos(y)+Arcsin(y)*(-1/Sqrt(1-Sqr(y)))) |
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4 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
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y=g(x) |
Y = Cos(x) |
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G(x,y) |
G(x,y)=Sh(Ch(x)*Arctg(x)+Arccos(y)*Cos(y)) |
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V1 |
V1=G(x,y)*(Sh(x)*Arctg(x)+Ch(x)*(1/(1+Sqr(x)))) |
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V2 |
V2=G(x,y)*((-1/Sqrt(1-Sqr(y)))*Cos(y)+Arccos(y)*(-Sin(y))) |
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2 |
[a1;b1] |
0.1 <= X <= 0.7 |
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[a2;b2] |
0.1 <= Y <= 0.8 |
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[a3;b3] |
0.1 <= Z <= 0.6 |
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F(x,y,z) |
F(x,y,z)=Ch(Arcsin(x)*Sh(x)+Arccos(y)*Sqr(y)+Cos(z)*Tg(z)) |
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V1 |
V1=F(x,y,z)*((-1/Sqrt(1-Sqr(y)))*Sqr(y)+Arccos(y)*(2*y))*((-Sin(z))*Tg(z)+Cos(z)*(1/Sqr(Cos(z)))) |
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V2 |
V2=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Sh(x)+Arcsin(x)*Ch(x))*((-Sin(z))*Tg(z)+Cos(z)*(1/Sqr(Cos(z)))) |
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V3 |
V3=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Sh(x)+Arcsin(x)*Ch(x))*((-1/Sqrt(1-Sqr(y)))*Sqr(y)+Arccos(y)*(2*y)) |
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5 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
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y=g(x) |
Y = Arctg(x) |
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G(x,y) |
G(x,y)=(1/(2*Sqrt(Ch(x)*Arctg(x)+Ch(y)*Cos(y)))) |
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V1 |
V1=G(x,y)*(Sh(x)*Arctg(x)+Ch(x)*(1/(1+Sqr(x)))) |
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V2 |
V2=G(x,y)*(Sh(y)*Cos(y)+Ch(y)*(-Sin(y))) |
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2 |
[a1;b1] |
0.1 <= X <= 0.5 |
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[a2;b2] |
0.1 <= Y <= 0.8 |
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[a3;b3] |
0.1 <= Z <= 0.4 |
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F(x,y,z) |
F(x,y,z)=-1/Sqr(Arccos(x)*Arctg(x)+Arccos(y)*Sin(y)+Sqr(z)*Arcsin(z)) |
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V1 |
V1=F(x,y,z)*((-1/Sqrt(1-Sqr(y)))*Sin(y)+Arccos(y)*Cos(y))*((2*z)*Arcsin(z)+Sqr(z)*(1/Sqrt(1-Sqr(z)))) |
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V2 |
V2=F(x,y,z)*((-1/Sqrt(1-Sqr(x)))*Arctg(x)+Arccos(x)*(1/(1+Sqr(x))))*((2*z)*Arcsin(z)+Sqr(z)*(1/Sqrt(1-Sqr(z)))) |
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V3 |
V3=F(x,y,z)*((-1/Sqrt(1-Sqr(x)))*Arctg(x)+Arccos(x)*(1/(1+Sqr(x))))*((-1/Sqrt(1-Sqr(y)))*Sin(y)+Arccos(y)*Cos(y)) |
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6 |
1 |
[a;d] |
0.1 <= X <= 0.3 |
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y=g(x) |
Y = Sqr(x) |
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G(x,y) |
G(x,y)=(1/(1+Sqr(Sqrt(x)*Arccos(x)+Ch(y)*Arcsin(y)))) |
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V1 |
V1=G(x,y)*((1/(2*Sqrt(x)))*Arccos(x)+Sqrt(x)*(-1/Sqrt(1-Sqr(x)))) |
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V2 |
V2=G(x,y)*(Sh(y)*Arcsin(y)+Ch(y)*(1/Sqrt(1-Sqr(y)))) |
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2 |
[a1;b1] |
0.1 <= X <= 0.6 |
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[a2;b2] |
0.1 <= Y <= 0.7 |
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[a3;b3] |
0.1 <= Z <= 0.4 |
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F(x,y,z) |
F(x,y,z)=Exp(Tg(x)*Arcsin(x)+Arctg(y)*Ch(y)+Ch(z)*Arcsin(z)) |
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V1 |
V1=F(x,y,z)*((1/(1+Sqr(y)))*Ch(y)+Arctg(y)*Sh(y))*(Sh(z)*Arcsin(z)+Ch(z)*(1/Sqrt(1-Sqr(z)))) |
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V2 |
V2=F(x,y,z)*((1/Sqr(Cos(x)))*Arcsin(x)+Tg(x)*(1/Sqrt(1-Sqr(x))))*(Sh(z)*Arcsin(z)+Ch(z)*(1/Sqrt(1-Sqr(z)))) |
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V3 |
V3=F(x,y,z)*((1/Sqr(Cos(x)))*Arcsin(x)+Tg(x)*(1/Sqrt(1-Sqr(x))))*((1/(1+Sqr(y)))*Ch(y)+Arctg(y)*Sh(y)) |
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7 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
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y=g(x) |
Y = Sh(x) |
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G(x,y) |
G(x,y)=(1/Ch(x)*Tg(x)+Arcsin(y)*Sin(y)) |
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V1 |
V1=G(x,y)*(Sh(x)*Tg(x)+Ch(x)*(1/Sqr(Cos(x)))) |
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V2 |
V2=G(x,y)*((1/Sqrt(1-Sqr(y)))*Sin(y)+Arcsin(y)*Cos(y)) |
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2 |
[a1;b1] |
0.1 <= X <= 0.8 |
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[a2;b2] |
0.1 <= Y <= 0.4 |
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[a3;b3] |
0.1 <= Z <= 0.6 |
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F(x,y,z) |
F(x,y,z)=-Sin(Tg(x)*Ch(x)+Sh(y)*Exp(y)+Exp(z)*Sin(z)) |
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V1 |
V1=F(x,y,z)*(Ch(y)*Exp(y)+Sh(y)*Exp(y))*(Exp(z)*Sin(z)+Exp(z)*Cos(z)) |
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V2 |
V2=F(x,y,z)*((1/Sqr(Cos(x)))*Ch(x)+Tg(x)*Sh(x))*(Exp(z)*Sin(z)+Exp(z)*Cos(z)) |
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V3 |
V3=F(x,y,z)*((1/Sqr(Cos(x)))*Ch(x)+Tg(x)*Sh(x))*(Ch(y)*Exp(y)+Sh(y)*Exp(y)) |
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8 |
1 |
[a;d] |
0.1 <= X <= 0.3 |
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y=g(x) |
Y = Sqr(x) |
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G(x,y) |
G(x,y)=Exp(Exp(x)*Sin(x)+Cos(y)*Sqr(y)) |
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V1 |
V1=G(x,y)*(Exp(x)*Sin(x)+Exp(x)*Cos(x)) |
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V2 |
V2=G(x,y)*((-Sin(y))*Sqr(y)+Cos(y)*(2*y)) |
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2 |
[a1;b1] |
0.1 <= X <= 0.6 |
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[a2;b2] |
0.1 <= Y <= 0.7 |
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[a3;b3] |
0.1 <= Z <= 0.8 |
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F(x,y,z) |
F(x,y,z)=Ch(Sin(x)*Arcsin(x)+Sh(y)*Exp(y)+Arcsin(z)*Sin(z)) |
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V1 |
V1=F(x,y,z)*(Ch(y)*Exp(y)+Sh(y)*Exp(y))*((1/Sqrt(1-Sqr(z)))*Sin(z)+Arcsin(z)*Cos(z)) |
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V2 |
V2=F(x,y,z)*(Cos(x)*Arcsin(x)+Sin(x)*(1/Sqrt(1-Sqr(x))))*((1/Sqrt(1-Sqr(z)))*Sin(z)+Arcsin(z)*Cos(z)) |
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V3 |
V3=F(x,y,z)*(Cos(x)*Arcsin(x)+Sin(x)*(1/Sqrt(1-Sqr(x))))*(Ch(y)*Exp(y)+Sh(y)*Exp(y)) |
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9 |
1 |
[a;d] |
0.1 <= X <= 0.3 |
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y=g(x) |
Y = Tg(x) |
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G(x,y) |
G(x,y)=Exp(Sqr(x)*Arctg(x)+Arcsin(y)*Arctg(y)) |
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V1 |
V1=G(x,y)*((2*x)*Arctg(x)+Sqr(x)*(1/(1+Sqr(x)))) |
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V2 |
V2=G(x,y)*((1/Sqrt(1-Sqr(y)))*Arctg(y)+Arcsin(y)*(1/(1+Sqr(y)))) |
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2 |
[a1;b1] |
0.1 <= X <= 0.9 |
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[a2;b2] |
0.1 <= Y <= 0.8 |
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[a3;b3] |
0.1 <= Z <= 0.5 |
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F(x,y,z) |
F(x,y,z)=Sh(Ch(x)*Arctg(x)+Sin(y)*Sqr(y)+Arccos(z)*Arctg(z)) |
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V1 |
V1=F(x,y,z)*(Cos(y)*Sqr(y)+Sin(y)*(2*y))*((-1/Sqrt(1-Sqr(z)))*Arctg(z)+Arccos(z)*(1/(1+Sqr(z)))) |
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V2 |
V2=F(x,y,z)*(Sh(x)*Arctg(x)+Ch(x)*(1/(1+Sqr(x))))*((-1/Sqrt(1-Sqr(z)))*Arctg(z)+Arccos(z)*(1/(1+Sqr(z)))) |
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V3 |
V3=F(x,y,z)*(Sh(x)*Arctg(x)+Ch(x)*(1/(1+Sqr(x))))*(Cos(y)*Sqr(y)+Sin(y)*(2*y)) |
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10 |
1 |
[a;d] |
0.1 <= X <= 0.3 |
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y=g(x) |
Y = Arcsin(x) |
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G(x,y) |
G(x,y)=(1/(2*Sqrt(Arccos(x)*Arctg(x)+Sh(y)*Arctg(y)))) |
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V1 |
V1=G(x,y)*((-1/Sqrt(1-Sqr(x)))*Arctg(x)+Arccos(x)*(1/(1+Sqr(x)))) |
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V2 |
V2=G(x,y)*(Ch(y)*Arctg(y)+Sh(y)*(1/(1+Sqr(y)))) |
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2 |
[a1;b1] |
0.1 <= X <= 0.8 |
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[a2;b2] |
0.1 <= Y <= 0.4 |
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[a3;b3] |
0.1 <= Z <= 0.9 |
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F(x,y,z) |
F(x,y,z)=Exp(Arcsin(x)*Exp(x)+Sh(y)*Tg(y)+Sh(z)*Tg(z)) |
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V1 |
V1=F(x,y,z)*(Ch(y)*Tg(y)+Sh(y)*(1/Sqr(Cos(y))))*(Ch(z)*Tg(z)+Sh(z)*(1/Sqr(Cos(z)))) |
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V2 |
V2=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Exp(x)+Arcsin(x)*Exp(x))*(Ch(z)*Tg(z)+Sh(z)*(1/Sqr(Cos(z)))) |
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V3 |
V3=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Exp(x)+Arcsin(x)*Exp(x))*(Ch(y)*Tg(y)+Sh(y)*(1/Sqr(Cos(y)))) |
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11 |
1 |
[a;d] |
0.1 <= X <= 0.3 |
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y=g(x) |
Y = Cos(x) |
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G(x,y) |
G(x,y)=(2*Arcsin(x)*Arccos(x)+Sh(y)*Sin(y)) |
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V1 |
V1=G(x,y)*((1/Sqrt(1-Sqr(x)))*Arccos(x)+Arcsin(x)*(-1/Sqrt(1-Sqr(x)))) |
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V2 |
V2=G(x,y)*(Ch(y)*Sin(y)+Sh(y)*Cos(y)) |
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2 |
[a1;b1] |
0.1 <= X <= 0.8 |
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[a2;b2] |
0.1 <= Y <= 0.6 |
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[a3;b3] |
0.1 <= Z <= 0.8 |
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F(x,y,z) |
F(x,y,z)=-2*(Cos(x)*Arctg(x)+Cos(y)*Sin(y)+Ch(z)*Sqrt(z))/Sqr(1+Sqr(Cos(x)*Arctg(x)+Cos(y)*Sin(y)+Ch(z)*Sqrt(z))) |
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V1 |
V1=F(x,y,z)*((-Sin(y))*Sin(y)+Cos(y)*Cos(y))*(Sh(z)*Sqrt(z)+Ch(z)*(1/(2*Sqrt(z)))) |
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V2 |
V2=F(x,y,z)*((-Sin(x))*Arctg(x)+Cos(x)*(1/(1+Sqr(x))))*(Sh(z)*Sqrt(z)+Ch(z)*(1/(2*Sqrt(z)))) |
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V3 |
V3=F(x,y,z)*((-Sin(x))*Arctg(x)+Cos(x)*(1/(1+Sqr(x))))*((-Sin(y))*Sin(y)+Cos(y)*Cos(y)) |
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12 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
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y=g(x) |
Y = Sqrt(x) |
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G(x,y) |
G(x,y)=Ch(Arccos(x)*Arctg(x)+Exp(y)*Sin(y)) |
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V1 |
V1=G(x,y)*((-1/Sqrt(1-Sqr(x)))*Arctg(x)+Arccos(x)*(1/(1+Sqr(x)))) |
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V2 |
V2=G(x,y)*(Exp(y)*Sin(y)+Exp(y)*Cos(y)) |
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2 |
[a1;b1] |
0.1 <= X <= 0.4 |
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[a2;b2] |
0.1 <= Y <= 0.6 |
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[a3;b3] |
0.1 <= Z <= 0.8 |
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F(x,y,z) |
F(x,y,z)=-Sin(Sqr(x)*Arccos(x)+Cos(y)*Exp(y)+Arctg(z)*Exp(z)) |
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V1 |
V1=F(x,y,z)*((-Sin(y))*Exp(y)+Cos(y)*Exp(y))*((1/(1+Sqr(z)))*Exp(z)+Arctg(z)*Exp(z)) |
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V2 |
V2=F(x,y,z)*((2*x)*Arccos(x)+Sqr(x)*(-1/Sqrt(1-Sqr(x))))*((1/(1+Sqr(z)))*Exp(z)+Arctg(z)*Exp(z)) |
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V3 |
V3=F(x,y,z)*((2*x)*Arccos(x)+Sqr(x)*(-1/Sqrt(1-Sqr(x))))*((-Sin(y))*Exp(y)+Cos(y)*Exp(y)) |
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|
13 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
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y=g(x) |
Y = Sh(x) |
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G(x,y) |
G(x,y)=(-Sin(Sin(x)*Sh(x)+Cos(y)*Arccos(y))) |
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V1 |
V1=G(x,y)*(Cos(x)*Sh(x)+Sin(x)*Ch(x)) |
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V2 |
V2=G(x,y)*((-Sin(y))*Arccos(y)+Cos(y)*(-1/Sqrt(1-Sqr(y)))) |
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|
2 |
[a1;b1] |
0.1 <= X <= 0.6 |
|
|
[a2;b2] |
0.1 <= Y <= 0.8 |
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[a3;b3] |
0.1 <= Z <= 0.5 |
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F(x,y,z) |
F(x,y,z)=Sh(Arctg(x)*Arcsin(x)+Tg(y)*Cos(y)+Sqr(z)*Sqrt(z)) |
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V1 |
V1=F(x,y,z)*((1/Sqr(Cos(y)))*Cos(y)+Tg(y)*(-Sin(y)))*((2*z)*Sqrt(z)+Sqr(z)*(1/(2*Sqrt(z)))) |
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V2 |
V2=F(x,y,z)*((1/(1+Sqr(x)))*Arcsin(x)+Arctg(x)*(1/Sqrt(1-Sqr(x))))*((2*z)*Sqrt(z)+Sqr(z)*(1/(2*Sqrt(z)))) |
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V3 |
V3=F(x,y,z)*((1/(1+Sqr(x)))*Arcsin(x)+Arctg(x)*(1/Sqrt(1-Sqr(x))))*((1/Sqr(Cos(y)))*Cos(y)+Tg(y)*(-Sin(y))) |
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|
14 |
1 |
[a;d] |
0.1 <= X <= 0.3 |
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y=g(x) |
Y = Sqr(x) |
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G(x,y) |
G(x,y)=(2*Sin(x)*Tg(x)+Cos(y)*Sqrt(y)) |
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V1 |
V1=G(x,y)*(Cos(x)*Tg(x)+Sin(x)*(1/Sqr(Cos(x)))) |
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V2 |
V2=G(x,y)*((-Sin(y))*Sqrt(y)+Cos(y)*(1/(2*Sqrt(y)))) |
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|
2 |
[a1;b1] |
0.1 <= X <= 0.6 |
|
|
[a2;b2] |
0.1 <= Y <= 0.8 |
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[a3;b3] |
0.1 <= Z <= 0.7 |
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F(x,y,z) |
F(x,y,z)=-1/Sqr(Arctg(x)*Sqr(x)+Arcsin(y)*Sqrt(y)+Sin(z)*Arctg(z)) |
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V1 |
V1=F(x,y,z)*((1/Sqrt(1-Sqr(y)))*Sqrt(y)+Arcsin(y)*(1/(2*Sqrt(y))))*(Cos(z)*Arctg(z)+Sin(z)*(1/(1+Sqr(z)))) |
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V2 |
V2=F(x,y,z)*((1/(1+Sqr(x)))*Sqr(x)+Arctg(x)*(2*x))*(Cos(z)*Arctg(z)+Sin(z)*(1/(1+Sqr(z)))) |
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V3 |
V3=F(x,y,z)*((1/(1+Sqr(x)))*Sqr(x)+Arctg(x)*(2*x))*((1/Sqrt(1-Sqr(y)))*Sqrt(y)+Arcsin(y)*(1/(2*Sqrt(y)))) |
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15 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
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y=g(x) |
Y = Arctg(x) |
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G(x,y) |
G(x,y)=Exp(Tg(x)*Sin(x)+Exp(y)*Arccos(y)) |
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|
V1 |
V1=G(x,y)*((1/Sqr(Cos(x)))*Sin(x)+Tg(x)*Cos(x)) |
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|
V2 |
V2=G(x,y)*(Exp(y)*Arccos(y)+Exp(y)*(-1/Sqrt(1-Sqr(y)))) |
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|
2 |
[a1;b1] |
0.1 <= X <= 0.6 |
|
|
[a2;b2] |
0.1 <= Y <= 0.4 |
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|
[a3;b3] |
0.1 <= Z <= 0.7 |
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|
F(x,y,z) |
F(x,y,z)=-2*(Exp(x)*Tg(x)+Sin(y)*Exp(y)+Exp(z)*Sqrt(z))/Sqr(1+Sqr(Exp(x)*Tg(x)+Sin(y)*Exp(y)+Exp(z)*Sqrt(z))) |
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|
V1 |
V1=F(x,y,z)*(Cos(y)*Exp(y)+Sin(y)*Exp(y))*(Exp(z)*Sqrt(z)+Exp(z)*(1/(2*Sqrt(z)))) |
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|
V2 |
V2=F(x,y,z)*(Exp(x)*Tg(x)+Exp(x)*(1/Sqr(Cos(x))))*(Exp(z)*Sqrt(z)+Exp(z)*(1/(2*Sqrt(z)))) |
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|
V3 |
V3=F(x,y,z)*(Exp(x)*Tg(x)+Exp(x)*(1/Sqr(Cos(x))))*(Cos(y)*Exp(y)+Sin(y)*Exp(y)) |
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|
16 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
|
y=g(x) |
Y = Sqr(x) |
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|
G(x,y) |
G(x,y)=(1/(2*Sqrt(Ch(x)*Cos(x)+Cos(y)*Sh(y)))) |
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|
V1 |
V1=G(x,y)*(Sh(x)*Cos(x)+Ch(x)*(-Sin(x))) |
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|
V2 |
V2=G(x,y)*((-Sin(y))*Sh(y)+Cos(y)*Ch(y)) |
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|
2 |
[a1;b1] |
0.1 <= X <= 0.6 |
|
|
[a2;b2] |
0.1 <= Y <= 0.9 |
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|
[a3;b3] |
0.1 <= Z <= 0.4 |
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|
F(x,y,z) |
F(x,y,z)=Exp(Sqrt(x)*Arcsin(x)+Sqrt(y)*Sin(y)+Cos(z)*Sh(z)) |
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|
V1 |
V1=F(x,y,z)*((1/(2*Sqrt(y)))*Sin(y)+Sqrt(y)*Cos(y))*((-Sin(z))*Sh(z)+Cos(z)*Ch(z)) |
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|
V2 |
V2=F(x,y,z)*((1/(2*Sqrt(x)))*Arcsin(x)+Sqrt(x)*(1/Sqrt(1-Sqr(x))))*((-Sin(z))*Sh(z)+Cos(z)*Ch(z)) |
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|
V3 |
V3=F(x,y,z)*((1/(2*Sqrt(x)))*Arcsin(x)+Sqrt(x)*(1/Sqrt(1-Sqr(x))))*((1/(2*Sqrt(y)))*Sin(y)+Sqrt(y)*Cos(y)) |
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|
17 |
1 |
[a;d] |
0.1 <= X <= 0.2 |
|
y=g(x) |
Y = Sin(x) |
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|
G(x,y) |
G(x,y)=Ch(Sh(x)*Tg(x)+Exp(y)*Sqrt(y)) |
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|
V1 |
V1=G(x,y)*(Ch(x)*Tg(x)+Sh(x)*(1/Sqr(Cos(x)))) |
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|
V2 |
V2=G(x,y)*(Exp(y)*Sqrt(y)+Exp(y)*(1/(2*Sqrt(y)))) |
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|
2 |
[a1;b1] |
0.1 <= X <= 0.7 |
|
|
[a2;b2] |
0.1 <= Y <= 0.7 |
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|
[a3;b3] |
0.1 <= Z <= 0.4 |
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|
F(x,y,z) |
F(x,y,z)=Exp(Tg(x)*Exp(x)+Tg(y)*Exp(y)+Sh(z)*Arctg(z)) |
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|
V1 |
V1=F(x,y,z)*((1/Sqr(Cos(y)))*Exp(y)+Tg(y)*Exp(y))*(Ch(z)*Arctg(z)+Sh(z)*(1/(1+Sqr(z)))) |
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|
V2 |
V2=F(x,y,z)*((1/Sqr(Cos(x)))*Exp(x)+Tg(x)*Exp(x))*(Ch(z)*Arctg(z)+Sh(z)*(1/(1+Sqr(z)))) |
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|
V3 |
V3=F(x,y,z)*((1/Sqr(Cos(x)))*Exp(x)+Tg(x)*Exp(x))*((1/Sqr(Cos(y)))*Exp(y)+Tg(y)*Exp(y)) |
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|
18 |
1 |
[a;d] |
0.1 <= X <= 0.5 |
|
y=g(x) |
Y = Sh(x) |
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|
G(x,y) |
G(x,y)=(1/(2*Sqrt(Ch(x)*Sqr(x)+Sh(y)*Arcsin(y)))) |
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|
V1 |
V1=G(x,y)*(Sh(x)*Sqr(x)+Ch(x)*(2*x)) |
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|
V2 |
V2=G(x,y)*(Ch(y)*Arcsin(y)+Sh(y)*(1/Sqrt(1-Sqr(y)))) |
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|
2 |
[a1;b1] |
0.1 <= X <= 0.5 |
|
|
[a2;b2] |
0.1 <= Y <= 0.9 |
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|
[a3;b3] |
0.1 <= Z <= 0.8 |
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|
F(x,y,z) |
F(x,y,z)=Sh(Arcsin(x)*Tg(x)+Exp(y)*Arcsin(y)+Sqr(z)*Sqrt(z)) |
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|
V1 |
V1=F(x,y,z)*(Exp(y)*Arcsin(y)+Exp(y)*(1/Sqrt(1-Sqr(y))))*((2*z)*Sqrt(z)+Sqr(z)*(1/(2*Sqrt(z)))) |
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|
V2 |
V2=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Tg(x)+Arcsin(x)*(1/Sqr(Cos(x))))*((2*z)*Sqrt(z)+Sqr(z)*(1/(2*Sqrt(z)))) |
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|
V3 |
V3=F(x,y,z)*((1/Sqrt(1-Sqr(x)))*Tg(x)+Arcsin(x)*(1/Sqr(Cos(x))))*(Exp(y)*Arcsin(y)+Exp(y)*(1/Sqrt(1-Sqr(y)))) |
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|
19 |
1 |
[a;d] |
0.1 <= X <= 0.3 |
|
y=g(x) |
Y = Tg(x) |
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|
G(x,y) |
G(x,y)=Exp(Sqrt(x)*Sin(x)+Cos(y)*Arcsin(y)) |
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|
V1 |
V1=G(x,y)*((1/(2*Sqrt(x)))*Sin(x)+Sqrt(x)*Cos(x)) |
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|
V2 |
V2=G(x,y)*((-Sin(y))*Arcsin(y)+Cos(y)*(1/Sqrt(1-Sqr(y)))) |
||
|
2 |
[a1;b1] |
0.1 <= X <= 0.5 |
|
|
[a2;b2] |
0.1 <= Y <= 0.9 |
||
|
[a3;b3] |
0.1 <= Z <= 0.4 |
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|
F(x,y,z) |
F(x,y,z)=-Cos(Cos(x)*Sh(x)+Ch(y)*Sh(y)+Ch(z)*Sqr(z)) |
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|
V1 |
V1=F(x,y,z)*(Sh(y)*Sh(y)+Ch(y)*Ch(y))*(Sh(z)*Sqr(z)+Ch(z)*(2*z)) |
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|
V2 |
V2=F(x,y,z)*((-Sin(x))*Sh(x)+Cos(x)*Ch(x))*(Sh(z)*Sqr(z)+Ch(z)*(2*z)) |
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|
V3 |
V3=F(x,y,z)*((-Sin(x))*Sh(x)+Cos(x)*Ch(x))*(Sh(y)*Sh(y)+Ch(y)*Ch(y)) |
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|
20 |
1 |
[a;d] |
0.1 <= X <= 0.4 |
|
y=g(x) |
Y = Sh(x) |
||
|
G(x,y) |
G(x,y)=(1/Arccos(x)*Sqrt(x)+Cos(y)*Sqr(y)) |
||
|
V1 |
V1=G(x,y)*((-1/Sqrt(1-Sqr(x)))*Sqrt(x)+Arccos(x)*(1/(2*Sqrt(x)))) |
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|
V2 |
V2=G(x,y)*((-Sin(y))*Sqr(y)+Cos(y)*(2*y)) |
||
|
2 |
[a1;b1] |
0.1 <= X <= 0.7 |
|
|
[a2;b2] |
0.1 <= Y <= 0.7 |
||
|
[a3;b3] |
0.1 <= Z <= 0.5 |
||
|
F(x,y,z) |
F(x,y,z)=Sh(Exp(x)*Ch(x)+Sqr(y)*Cos(y)+Arcsin(z)*Ch(z)) |
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|
V1 |
V1=F(x,y,z)*((2*y)*Cos(y)+Sqr(y)*(-Sin(y)))*((1/Sqrt(1-Sqr(z)))*Ch(z)+Arcsin(z)*Sh(z)) |
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|
V2 |
V2=F(x,y,z)*(Exp(x)*Ch(x)+Exp(x)*Sh(x))*((1/Sqrt(1-Sqr(z)))*Ch(z)+Arcsin(z)*Sh(z)) |
||
|
V3 |
V3=F(x,y,z)*(Exp(x)*Ch(x)+Exp(x)*Sh(x))*((2*y)*Cos(y)+Sqr(y)*(-Sin(y))) |
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