nislamce

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These are replies submitted by nislamce

Hi,

At present beta2 becomes function of beta 1 and son on . I want the solution of beta2 in such a way that, it can consider the beta1 value too. Any co-operation will be appreciable.

 

Again thanks a lot for Your help.

 

Regards,

Nurul Islam

equn1 := beta[2]^2*beta[1]^2*p^2-(beta[2]*beta[1]*p)^(2.857142857/M)*((lambda-kappa)*p/(nu*(3*M/(beta[2]*beta[1]*p)-(6+4*M)/(2*beta[2]*beta[1]*q+3*beta[2]*beta[1]*p)+(3-M)/(3*beta[2]*beta[1]*p-beta[2]*beta[1]*q))*q))^(2.857142857/M)-beta[2]^2*beta[1]^2*q^2*(1-.7*M)/M^2 = 0

beta[2]^2*beta[1]^2*p^2-(beta[2]*beta[1]*p)^(2.857142857/M)*((lambda-kappa)*p/(nu*(3*M/(beta[2]*beta[1]*p)-(6+4*M)/(2*beta[2]*beta[1]*q+3*beta[2]*beta[1]*p)+(3-M)/(3*beta[2]*beta[1]*p-beta[2]*beta[1]*q))*q))^(2.857142857/M)-beta[2]^2*beta[1]^2*q^2*(1-.7*M)/M^2 = 0

(1)

equn2 := beta[1] = (p*conjugate(p[0])+sqrt(p^2*conjugate(p[0])^2/R^2+p((R(conjugate(p[0]))-2)^2/R)^2+(R((R(conjugate(p[0]))-2)^2/R)-1)^2*q((R(conjugate(p[0]))-2)^2/R)^2/M((R(conjugate(p[0]))-2)^2/R)^2)*R)*M^2/R(p^2*M^2+q^2*R^2-2*q^2*R+q^2)

beta[1] = (p*conjugate(p[0])+(p^2*conjugate(p[0])^2/R^2+p((R(conjugate(p[0]))-2)^2/R)^2+(R((R(conjugate(p[0]))-2)^2/R)-1)^2*q((R(conjugate(p[0]))-2)^2/R)^2/M((R(conjugate(p[0]))-2)^2/R)^2)^(1/2)*R)*M^2/R(p^2*M^2+q^2*R^2-2*q^2*R+q^2)

(2)

solve({equn1, equn2}, beta[2])

``

 

Download M_BETA2.mw

Hi,

At present beta2 becomes function of beta 1 and son on . I want the solution of beta2 in such a way that, it can consider the beta1 value too. Any co-operation will be appreciable.

 

Again thanks a lot for Your help.

 

Regards,

Nurul Islam

equn1 := beta[2]^2*beta[1]^2*p^2-(beta[2]*beta[1]*p)^(2.857142857/M)*((lambda-kappa)*p/(nu*(3*M/(beta[2]*beta[1]*p)-(6+4*M)/(2*beta[2]*beta[1]*q+3*beta[2]*beta[1]*p)+(3-M)/(3*beta[2]*beta[1]*p-beta[2]*beta[1]*q))*q))^(2.857142857/M)-beta[2]^2*beta[1]^2*q^2*(1-.7*M)/M^2 = 0

beta[2]^2*beta[1]^2*p^2-(beta[2]*beta[1]*p)^(2.857142857/M)*((lambda-kappa)*p/(nu*(3*M/(beta[2]*beta[1]*p)-(6+4*M)/(2*beta[2]*beta[1]*q+3*beta[2]*beta[1]*p)+(3-M)/(3*beta[2]*beta[1]*p-beta[2]*beta[1]*q))*q))^(2.857142857/M)-beta[2]^2*beta[1]^2*q^2*(1-.7*M)/M^2 = 0

(1)

equn2 := beta[1] = (p*conjugate(p[0])+sqrt(p^2*conjugate(p[0])^2/R^2+p((R(conjugate(p[0]))-2)^2/R)^2+(R((R(conjugate(p[0]))-2)^2/R)-1)^2*q((R(conjugate(p[0]))-2)^2/R)^2/M((R(conjugate(p[0]))-2)^2/R)^2)*R)*M^2/R(p^2*M^2+q^2*R^2-2*q^2*R+q^2)

beta[1] = (p*conjugate(p[0])+(p^2*conjugate(p[0])^2/R^2+p((R(conjugate(p[0]))-2)^2/R)^2+(R((R(conjugate(p[0]))-2)^2/R)-1)^2*q((R(conjugate(p[0]))-2)^2/R)^2/M((R(conjugate(p[0]))-2)^2/R)^2)^(1/2)*R)*M^2/R(p^2*M^2+q^2*R^2-2*q^2*R+q^2)

(2)

solve({equn1, equn2}, beta[2])

``

 

Download M_BETA2.mw

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