I could not break this equation. Please help me The 2019 Stack Overflow Developer Survey...

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I could not break this equation. Please help me



The 2019 Stack Overflow Developer Survey Results Are In
Announcing the arrival of Valued Associate #679: Cesar Manara
Planned maintenance scheduled April 17/18, 2019 at 00:00UTC (8:00pm US/Eastern)please help me fit my equation into my margins!List of equations, including equation contents and captionPlease how can I write this equation in latex?help in writing equationequation reference too close to equationLaTex error please helpHow continue a equation next lineI need help to write this equationequation custom horizontal alignment & numbering each rowCan anyone please help me to solve this? No equation number is appearing for this code












2















 f_2=frac{sqrt{frac{s-4 text{mpsi}^2}{s-4 text{me}^2}} left(16 text{ca} text{cw} text{EE}^2 g
text{gpsi} s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^8-64
text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s sqrt{s left(-4 text{me}^2+4
text{mpsi}^2+sright)} cos (theta ) text{mZ}^8+8 text{ca} text{cw} text{EE}^2 g text{gpsi} s^4
cos (theta ) text{mZ}^6-32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^3 cos
(theta ) text{mZ}^6+16 text{ca} text{cw} text{EE}^2 g text{gpsi} s^2 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos (theta ) text{mZ}^6-64 text{ca} text{cw}
text{EE}^2 g text{gpsi} text{me}^2 s sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} Gamma
^2 cos (theta ) text{mZ}^6-40 text{ca} text{cw} text{EE}^2 g text{gpsi} s^3 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^6+160 text{ca} text{cw} text{EE}^2 g
text{gpsi} text{me}^2 s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^6-16 text{ca} text{cw} text{EE}^2 g text{gpsi} s^5 cos (theta ) text{mZ}^4+64
text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^4 cos (theta ) text{mZ}^4+8 text{ca}
text{cw} text{EE}^2 g text{gpsi} s^4 Gamma ^2 cos (theta ) text{mZ}^4-32 text{ca} text{cw}
text{EE}^2 g text{gpsi} text{me}^2 s^3 Gamma ^2 cos (theta ) text{mZ}^4-8 text{ca} text{cw}
text{EE}^2 g text{gpsi} s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos
(theta ) text{mZ}^4+32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^2 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos (theta ) text{mZ}^4+32 text{ca} text{cw}
text{EE}^2 g text{gpsi} s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^4-128 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^3 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^4-8 a text{ca} text{cv} g^2
text{gpsi}^2 s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} sqrt{text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^4+32 a text{ca} text{cv} g^2 text{gpsi}^2
text{me}^2 s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} sqrt{text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^4+8 text{ca} text{cw} text{EE}^2 g
text{gpsi} s^6 cos (theta ) text{mZ}^2-32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2
s^5 cos (theta ) text{mZ}^2-8 text{ca} text{cw} text{EE}^2 g text{gpsi} s^5 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^2+32 text{ca} text{cw} text{EE}^2 g
text{gpsi} text{me}^2 s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^2-8 a text{ca} text{cv} g^2 text{gpsi}^2 s^5 sqrt{text{mZ}^4+left(Gamma ^2-2 sright)
text{mZ}^2+s^2} cos (theta ) text{mZ}^2+32 a text{ca} text{cv} g^2 text{gpsi}^2 text{me}^2 s^4
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2+8 a text{ca}
text{cv} g^2 text{gpsi}^2 s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)}
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2-32 a text{ca}
text{cv} g^2 text{gpsi}^2 text{me}^2 s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)}
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2right) theta
left(s-4 text{mpsi}^2right)}{256 text{cw}^2 text{mZ}^4 pi ^2 s^3 left(text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2right)^{3/2}}









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  • 6





    Let me guess: This was generated by some computer algebra system, Maple perhaps?

    – Harald Hanche-Olsen
    1 hour ago






  • 2





    I don't think breaking the equation into separate lines will help with the readability. It's a mess. Go back to maple and try to find a better output. Or start by finding where the fraction switches, and print the numerator and denominator separately.

    – Teepeemm
    1 hour ago
















2















 f_2=frac{sqrt{frac{s-4 text{mpsi}^2}{s-4 text{me}^2}} left(16 text{ca} text{cw} text{EE}^2 g
text{gpsi} s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^8-64
text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s sqrt{s left(-4 text{me}^2+4
text{mpsi}^2+sright)} cos (theta ) text{mZ}^8+8 text{ca} text{cw} text{EE}^2 g text{gpsi} s^4
cos (theta ) text{mZ}^6-32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^3 cos
(theta ) text{mZ}^6+16 text{ca} text{cw} text{EE}^2 g text{gpsi} s^2 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos (theta ) text{mZ}^6-64 text{ca} text{cw}
text{EE}^2 g text{gpsi} text{me}^2 s sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} Gamma
^2 cos (theta ) text{mZ}^6-40 text{ca} text{cw} text{EE}^2 g text{gpsi} s^3 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^6+160 text{ca} text{cw} text{EE}^2 g
text{gpsi} text{me}^2 s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^6-16 text{ca} text{cw} text{EE}^2 g text{gpsi} s^5 cos (theta ) text{mZ}^4+64
text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^4 cos (theta ) text{mZ}^4+8 text{ca}
text{cw} text{EE}^2 g text{gpsi} s^4 Gamma ^2 cos (theta ) text{mZ}^4-32 text{ca} text{cw}
text{EE}^2 g text{gpsi} text{me}^2 s^3 Gamma ^2 cos (theta ) text{mZ}^4-8 text{ca} text{cw}
text{EE}^2 g text{gpsi} s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos
(theta ) text{mZ}^4+32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^2 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos (theta ) text{mZ}^4+32 text{ca} text{cw}
text{EE}^2 g text{gpsi} s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^4-128 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^3 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^4-8 a text{ca} text{cv} g^2
text{gpsi}^2 s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} sqrt{text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^4+32 a text{ca} text{cv} g^2 text{gpsi}^2
text{me}^2 s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} sqrt{text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^4+8 text{ca} text{cw} text{EE}^2 g
text{gpsi} s^6 cos (theta ) text{mZ}^2-32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2
s^5 cos (theta ) text{mZ}^2-8 text{ca} text{cw} text{EE}^2 g text{gpsi} s^5 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^2+32 text{ca} text{cw} text{EE}^2 g
text{gpsi} text{me}^2 s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^2-8 a text{ca} text{cv} g^2 text{gpsi}^2 s^5 sqrt{text{mZ}^4+left(Gamma ^2-2 sright)
text{mZ}^2+s^2} cos (theta ) text{mZ}^2+32 a text{ca} text{cv} g^2 text{gpsi}^2 text{me}^2 s^4
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2+8 a text{ca}
text{cv} g^2 text{gpsi}^2 s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)}
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2-32 a text{ca}
text{cv} g^2 text{gpsi}^2 text{me}^2 s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)}
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2right) theta
left(s-4 text{mpsi}^2right)}{256 text{cw}^2 text{mZ}^4 pi ^2 s^3 left(text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2right)^{3/2}}









share|improve this question









New contributor




Sahabub Jahedi is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.
















  • 6





    Let me guess: This was generated by some computer algebra system, Maple perhaps?

    – Harald Hanche-Olsen
    1 hour ago






  • 2





    I don't think breaking the equation into separate lines will help with the readability. It's a mess. Go back to maple and try to find a better output. Or start by finding where the fraction switches, and print the numerator and denominator separately.

    – Teepeemm
    1 hour ago














2












2








2








 f_2=frac{sqrt{frac{s-4 text{mpsi}^2}{s-4 text{me}^2}} left(16 text{ca} text{cw} text{EE}^2 g
text{gpsi} s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^8-64
text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s sqrt{s left(-4 text{me}^2+4
text{mpsi}^2+sright)} cos (theta ) text{mZ}^8+8 text{ca} text{cw} text{EE}^2 g text{gpsi} s^4
cos (theta ) text{mZ}^6-32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^3 cos
(theta ) text{mZ}^6+16 text{ca} text{cw} text{EE}^2 g text{gpsi} s^2 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos (theta ) text{mZ}^6-64 text{ca} text{cw}
text{EE}^2 g text{gpsi} text{me}^2 s sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} Gamma
^2 cos (theta ) text{mZ}^6-40 text{ca} text{cw} text{EE}^2 g text{gpsi} s^3 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^6+160 text{ca} text{cw} text{EE}^2 g
text{gpsi} text{me}^2 s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^6-16 text{ca} text{cw} text{EE}^2 g text{gpsi} s^5 cos (theta ) text{mZ}^4+64
text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^4 cos (theta ) text{mZ}^4+8 text{ca}
text{cw} text{EE}^2 g text{gpsi} s^4 Gamma ^2 cos (theta ) text{mZ}^4-32 text{ca} text{cw}
text{EE}^2 g text{gpsi} text{me}^2 s^3 Gamma ^2 cos (theta ) text{mZ}^4-8 text{ca} text{cw}
text{EE}^2 g text{gpsi} s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos
(theta ) text{mZ}^4+32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^2 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos (theta ) text{mZ}^4+32 text{ca} text{cw}
text{EE}^2 g text{gpsi} s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^4-128 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^3 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^4-8 a text{ca} text{cv} g^2
text{gpsi}^2 s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} sqrt{text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^4+32 a text{ca} text{cv} g^2 text{gpsi}^2
text{me}^2 s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} sqrt{text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^4+8 text{ca} text{cw} text{EE}^2 g
text{gpsi} s^6 cos (theta ) text{mZ}^2-32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2
s^5 cos (theta ) text{mZ}^2-8 text{ca} text{cw} text{EE}^2 g text{gpsi} s^5 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^2+32 text{ca} text{cw} text{EE}^2 g
text{gpsi} text{me}^2 s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^2-8 a text{ca} text{cv} g^2 text{gpsi}^2 s^5 sqrt{text{mZ}^4+left(Gamma ^2-2 sright)
text{mZ}^2+s^2} cos (theta ) text{mZ}^2+32 a text{ca} text{cv} g^2 text{gpsi}^2 text{me}^2 s^4
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2+8 a text{ca}
text{cv} g^2 text{gpsi}^2 s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)}
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2-32 a text{ca}
text{cv} g^2 text{gpsi}^2 text{me}^2 s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)}
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2right) theta
left(s-4 text{mpsi}^2right)}{256 text{cw}^2 text{mZ}^4 pi ^2 s^3 left(text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2right)^{3/2}}









share|improve this question









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Sahabub Jahedi is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.












 f_2=frac{sqrt{frac{s-4 text{mpsi}^2}{s-4 text{me}^2}} left(16 text{ca} text{cw} text{EE}^2 g
text{gpsi} s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^8-64
text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s sqrt{s left(-4 text{me}^2+4
text{mpsi}^2+sright)} cos (theta ) text{mZ}^8+8 text{ca} text{cw} text{EE}^2 g text{gpsi} s^4
cos (theta ) text{mZ}^6-32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^3 cos
(theta ) text{mZ}^6+16 text{ca} text{cw} text{EE}^2 g text{gpsi} s^2 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos (theta ) text{mZ}^6-64 text{ca} text{cw}
text{EE}^2 g text{gpsi} text{me}^2 s sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} Gamma
^2 cos (theta ) text{mZ}^6-40 text{ca} text{cw} text{EE}^2 g text{gpsi} s^3 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^6+160 text{ca} text{cw} text{EE}^2 g
text{gpsi} text{me}^2 s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^6-16 text{ca} text{cw} text{EE}^2 g text{gpsi} s^5 cos (theta ) text{mZ}^4+64
text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^4 cos (theta ) text{mZ}^4+8 text{ca}
text{cw} text{EE}^2 g text{gpsi} s^4 Gamma ^2 cos (theta ) text{mZ}^4-32 text{ca} text{cw}
text{EE}^2 g text{gpsi} text{me}^2 s^3 Gamma ^2 cos (theta ) text{mZ}^4-8 text{ca} text{cw}
text{EE}^2 g text{gpsi} s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos
(theta ) text{mZ}^4+32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^2 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} Gamma ^2 cos (theta ) text{mZ}^4+32 text{ca} text{cw}
text{EE}^2 g text{gpsi} s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^4-128 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2 s^3 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^4-8 a text{ca} text{cv} g^2
text{gpsi}^2 s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} sqrt{text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^4+32 a text{ca} text{cv} g^2 text{gpsi}^2
text{me}^2 s^2 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} sqrt{text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^4+8 text{ca} text{cw} text{EE}^2 g
text{gpsi} s^6 cos (theta ) text{mZ}^2-32 text{ca} text{cw} text{EE}^2 g text{gpsi} text{me}^2
s^5 cos (theta ) text{mZ}^2-8 text{ca} text{cw} text{EE}^2 g text{gpsi} s^5 sqrt{s left(-4
text{me}^2+4 text{mpsi}^2+sright)} cos (theta ) text{mZ}^2+32 text{ca} text{cw} text{EE}^2 g
text{gpsi} text{me}^2 s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)} cos (theta )
text{mZ}^2-8 a text{ca} text{cv} g^2 text{gpsi}^2 s^5 sqrt{text{mZ}^4+left(Gamma ^2-2 sright)
text{mZ}^2+s^2} cos (theta ) text{mZ}^2+32 a text{ca} text{cv} g^2 text{gpsi}^2 text{me}^2 s^4
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2+8 a text{ca}
text{cv} g^2 text{gpsi}^2 s^4 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)}
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2-32 a text{ca}
text{cv} g^2 text{gpsi}^2 text{me}^2 s^3 sqrt{s left(-4 text{me}^2+4 text{mpsi}^2+sright)}
sqrt{text{mZ}^4+left(Gamma ^2-2 sright) text{mZ}^2+s^2} cos (theta ) text{mZ}^2right) theta
left(s-4 text{mpsi}^2right)}{256 text{cw}^2 text{mZ}^4 pi ^2 s^3 left(text{mZ}^4+left(Gamma
^2-2 sright) text{mZ}^2+s^2right)^{3/2}}






equations






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share|improve this question









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share|improve this question




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edited 2 hours ago









Phelype Oleinik

25.2k54690




25.2k54690






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Sahabub Jahedi is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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asked 2 hours ago









Sahabub JahediSahabub Jahedi

111




111




New contributor




Sahabub Jahedi is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.





New contributor





Sahabub Jahedi is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.






Sahabub Jahedi is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.








  • 6





    Let me guess: This was generated by some computer algebra system, Maple perhaps?

    – Harald Hanche-Olsen
    1 hour ago






  • 2





    I don't think breaking the equation into separate lines will help with the readability. It's a mess. Go back to maple and try to find a better output. Or start by finding where the fraction switches, and print the numerator and denominator separately.

    – Teepeemm
    1 hour ago














  • 6





    Let me guess: This was generated by some computer algebra system, Maple perhaps?

    – Harald Hanche-Olsen
    1 hour ago






  • 2





    I don't think breaking the equation into separate lines will help with the readability. It's a mess. Go back to maple and try to find a better output. Or start by finding where the fraction switches, and print the numerator and denominator separately.

    – Teepeemm
    1 hour ago








6




6





Let me guess: This was generated by some computer algebra system, Maple perhaps?

– Harald Hanche-Olsen
1 hour ago





Let me guess: This was generated by some computer algebra system, Maple perhaps?

– Harald Hanche-Olsen
1 hour ago




2




2





I don't think breaking the equation into separate lines will help with the readability. It's a mess. Go back to maple and try to find a better output. Or start by finding where the fraction switches, and print the numerator and denominator separately.

– Teepeemm
1 hour ago





I don't think breaking the equation into separate lines will help with the readability. It's a mess. Go back to maple and try to find a better output. Or start by finding where the fraction switches, and print the numerator and denominator separately.

– Teepeemm
1 hour ago










2 Answers
2






active

oldest

votes


















3














First, the source needs to be broken up inserting line breaks at suitable places so you can get some idea of the total structure of the formula. An editor that will show you matching parentheses and highlight text according to chosen patterns is a great help here.



It turns out that the formula is a fraction in which most of the text is a parenthesised expression in the denumerator. That needs to be taken out, named, and typeset explicitly. I chose to call this expression Ξ.



Also, there are lots of unnecessary leftright pairs. I deleted those. Further, I replaced text by the more appropriate mathrm. I ended up with the following code. It's a complete, compilable latex document. It still has multiple issues that need to be dealt with before you have a readable output. Most importantly, all the multicharacter variable names need some spacing around them. Use , for that.



documentclass{article}
usepackage{mathtools,amsfonts}
allowdisplaybreaks[1]
begin{document}
begin{equation}
f_2=frac{
sqrt{frac{s-4 mathrm{mpsi}^2}{s-4 mathrm{me}^2}}
Xi theta (s-4 mathrm{mpsi}^2)}
{256 mathrm{cw}^2 mathrm{mZ}^4 pi ^2 s^3
(mathrm{mZ}^4
+(Gamma ^2-2 s) mathrm{mZ}^2+s^2)^{3/2}}
end{equation}
where
begin{align*}
Xi&=16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
mathrm{gpsi} s^2
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
cos (theta ) mathrm{mZ}^8
\&
-64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
sqrt{s (-4 mathrm{me}^2 +4 mathrm{mpsi}^2+s)} cos (theta ) mathrm{mZ}^8
+8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
cos (theta ) mathrm{mZ}^6
\&
-32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^3 cos
(theta ) mathrm{mZ}^6
\&
+16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^2
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
Gamma ^2 cos (theta ) mathrm{mZ}^6
\&
-64 mathrm{ca} mathrm{cw}
mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
Gamma ^2 cos (theta ) mathrm{mZ}^6
\&
-40 mathrm{ca} mathrm{cw} mathrm{EE}^2
g mathrm{gpsi} s^3
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
cos (theta ) mathrm{mZ}^6
\&
+160 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
mathrm{gpsi} mathrm{me}^2 s^2
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
mathrm{mZ}^6
\&
-16 mathrm{ca} mathrm{cw} mathrm{EE}^2
g mathrm{gpsi} s^5 cos (theta ) mathrm{mZ}^4
\&
+64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^4
cos (theta ) mathrm{mZ}^4
\&
+8 mathrm{ca}
mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4 Gamma ^2 cos (theta ) mathrm{mZ}^4
\&
-32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
s^3 Gamma ^2 cos (theta ) mathrm{mZ}^4
\&
-8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^3
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
Gamma ^2 cos (theta ) mathrm{mZ}^4
\&
+32 mathrm{ca} mathrm{cw} mathrm{EE}^2
g mathrm{gpsi} mathrm{me}^2 s^2
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
Gamma ^2 cos (theta ) mathrm{mZ}^4
\&
+32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
cos (theta ) mathrm{mZ}^4
\&
-128 mathrm{ca} mathrm{cw} mathrm{EE}^2
g mathrm{gpsi} mathrm{me}^2 s^3
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
cos (theta ) mathrm{mZ}^4
\&
-8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^3
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
cos (theta ) mathrm{mZ}^4
\&
+32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2
mathrm{me}^2 s^2
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
cos (theta ) mathrm{mZ}^4
\&
+8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
mathrm{gpsi} s^6 cos (theta ) mathrm{mZ}^2
-32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
s^5 cos (theta ) mathrm{mZ}^2
\&
-8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^5
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
cos (theta ) mathrm{mZ}^2
\&
+32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
mathrm{gpsi} mathrm{me}^2 s^4
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
mathrm{mZ}^2
\&
-8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^5
sqrt{mathrm{mZ}^4+(Gamma ^2-2 s)
mathrm{mZ}^2+s^2} cos (theta ) mathrm{mZ}^2
\&
+32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^4
sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
cos (theta ) mathrm{mZ}^2
\&
+8 a mathrm{ca}
mathrm{cv} g^2 mathrm{gpsi}^2 s^4
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
cos (theta ) mathrm{mZ}^2
\&
-32 a mathrm{ca}
mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^3
sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
cos (theta ) mathrm{mZ}^2
end{align*}
end{document}





share|improve this answer































    2














    There are a lot of repeated items in your equation. I suggest you do something like this, which eliminates all left and right sizing directives.



    enter image description here



    documentclass{article}
    usepackage{mathtools}
    newcommandvn[1]{mathrm{,#1}}
    allowdisplaybreaks
    begin{document}
    noindent
    Put
    $psi=sqrt{smash[b]{s (-4 vn{me}^2+4 vn{mpsi}^2+s)}}$,
    $phi=sqrt{smash[b]{vn{mZ}^4 +(Gamma^2-2 s) vn{mZ}^2+s^2}}$,
    $kappa= vn{ca} vn{cw} vn{EE}^2, g vn{gpsi}$, and
    $lambda=vn{ca} vn{cv}, g^2 vn{gpsi}^2$.
    Then
    begin{align*}
    f_2 &=ucdot v/w, \
    shortintertext{where}
    u &= sqrt{frac{s-4 vn{mpsi}^2}{s-4 vn{me}^2}},,\
    v &=begin{aligned}[t]bigl[
    &16 kappa s^2 psi costheta vn{mZ}^8
    \&-64 kappa vn{me}^2 s psi costheta vn{mZ}^8
    \&+8 kappa s^4costheta vn{mZ}^6
    \&-32 kappa vn{me}^2 s^3 costheta vn{mZ}^6
    \&+16 kappa s^2 psi Gamma^2 costheta vn{mZ}^6
    \&-64 kappa vn{me}^2 s psi Gamma^2 costheta vn{mZ}^6
    \&-40 kappa s^3 psi costheta vn{mZ}^6
    \&+160kappa vn{me}^2 s^2 psi costheta vn{mZ}^6
    \&-16 kappa s^5 costheta vn{mZ}^4
    \&+64 kappa vn{me}^2 s^4 costheta vn{mZ}^4
    \&+8 kappa s^4 Gamma^2 costheta vn{mZ}^4
    \&-32 kappa vn{me}^2 s^3 Gamma^2 costheta vn{mZ}^4
    \&-8 kappa s^3 psi Gamma^2 costheta vn{mZ}^4
    \&+32 kappa vn{me}^2 s^2 psi Gamma^2 costheta vn{mZ}^4
    \&+32 kappa s^4 psi costheta vn{mZ}^4
    \&-128kappa vn{me}^2 s^3 psi costheta vn{mZ}^4
    \&+8 kappa s^6 costheta vn{mZ}^2
    \&-32 kappa vn{me}^2 s^5 costheta vn{mZ}^2
    \&-8 kappa s^5 psi costheta vn{mZ}^2
    \&+32 kappa vn{me}^2 s^4 psi costheta vn{mZ}^2
    \&-8 alambda s^3 psi phi costheta vn{mZ}^4
    \&+32alambda vn{me}^2 s^2 psi phi costheta vn{mZ}^4
    \&-8 alambda s^5 phi costheta vn{mZ}^2
    \&+32alambda vn{me}^2 s^4 psi costheta vn{mZ}^2
    \&+8 alambda s^4 psi phi costheta vn{mZ}^2
    \&-32alambda vn{me}^2 s^3 psi phi costheta vn{mZ}^2bigr]
    theta(s-4 vn{mpsi}^2)
    end{aligned}\
    shortintertext{and}
    w &=256 vn{cw}^2 vn{mZ}^4 pi^2 s^3 phi^3.
    end{align*}
    end{document}





    share|improve this answer
























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      2 Answers
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      2 Answers
      2






      active

      oldest

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      active

      oldest

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      active

      oldest

      votes









      3














      First, the source needs to be broken up inserting line breaks at suitable places so you can get some idea of the total structure of the formula. An editor that will show you matching parentheses and highlight text according to chosen patterns is a great help here.



      It turns out that the formula is a fraction in which most of the text is a parenthesised expression in the denumerator. That needs to be taken out, named, and typeset explicitly. I chose to call this expression Ξ.



      Also, there are lots of unnecessary leftright pairs. I deleted those. Further, I replaced text by the more appropriate mathrm. I ended up with the following code. It's a complete, compilable latex document. It still has multiple issues that need to be dealt with before you have a readable output. Most importantly, all the multicharacter variable names need some spacing around them. Use , for that.



      documentclass{article}
      usepackage{mathtools,amsfonts}
      allowdisplaybreaks[1]
      begin{document}
      begin{equation}
      f_2=frac{
      sqrt{frac{s-4 mathrm{mpsi}^2}{s-4 mathrm{me}^2}}
      Xi theta (s-4 mathrm{mpsi}^2)}
      {256 mathrm{cw}^2 mathrm{mZ}^4 pi ^2 s^3
      (mathrm{mZ}^4
      +(Gamma ^2-2 s) mathrm{mZ}^2+s^2)^{3/2}}
      end{equation}
      where
      begin{align*}
      Xi&=16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
      mathrm{gpsi} s^2
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      cos (theta ) mathrm{mZ}^8
      \&
      -64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
      sqrt{s (-4 mathrm{me}^2 +4 mathrm{mpsi}^2+s)} cos (theta ) mathrm{mZ}^8
      +8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
      cos (theta ) mathrm{mZ}^6
      \&
      -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^3 cos
      (theta ) mathrm{mZ}^6
      \&
      +16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^2
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      Gamma ^2 cos (theta ) mathrm{mZ}^6
      \&
      -64 mathrm{ca} mathrm{cw}
      mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      Gamma ^2 cos (theta ) mathrm{mZ}^6
      \&
      -40 mathrm{ca} mathrm{cw} mathrm{EE}^2
      g mathrm{gpsi} s^3
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      cos (theta ) mathrm{mZ}^6
      \&
      +160 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
      mathrm{gpsi} mathrm{me}^2 s^2
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
      mathrm{mZ}^6
      \&
      -16 mathrm{ca} mathrm{cw} mathrm{EE}^2
      g mathrm{gpsi} s^5 cos (theta ) mathrm{mZ}^4
      \&
      +64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^4
      cos (theta ) mathrm{mZ}^4
      \&
      +8 mathrm{ca}
      mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4 Gamma ^2 cos (theta ) mathrm{mZ}^4
      \&
      -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
      s^3 Gamma ^2 cos (theta ) mathrm{mZ}^4
      \&
      -8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^3
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      Gamma ^2 cos (theta ) mathrm{mZ}^4
      \&
      +32 mathrm{ca} mathrm{cw} mathrm{EE}^2
      g mathrm{gpsi} mathrm{me}^2 s^2
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      Gamma ^2 cos (theta ) mathrm{mZ}^4
      \&
      +32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      cos (theta ) mathrm{mZ}^4
      \&
      -128 mathrm{ca} mathrm{cw} mathrm{EE}^2
      g mathrm{gpsi} mathrm{me}^2 s^3
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      cos (theta ) mathrm{mZ}^4
      \&
      -8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^3
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
      cos (theta ) mathrm{mZ}^4
      \&
      +32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2
      mathrm{me}^2 s^2
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
      cos (theta ) mathrm{mZ}^4
      \&
      +8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
      mathrm{gpsi} s^6 cos (theta ) mathrm{mZ}^2
      -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
      s^5 cos (theta ) mathrm{mZ}^2
      \&
      -8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^5
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      cos (theta ) mathrm{mZ}^2
      \&
      +32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
      mathrm{gpsi} mathrm{me}^2 s^4
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
      mathrm{mZ}^2
      \&
      -8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^5
      sqrt{mathrm{mZ}^4+(Gamma ^2-2 s)
      mathrm{mZ}^2+s^2} cos (theta ) mathrm{mZ}^2
      \&
      +32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^4
      sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
      cos (theta ) mathrm{mZ}^2
      \&
      +8 a mathrm{ca}
      mathrm{cv} g^2 mathrm{gpsi}^2 s^4
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
      cos (theta ) mathrm{mZ}^2
      \&
      -32 a mathrm{ca}
      mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^3
      sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
      sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
      cos (theta ) mathrm{mZ}^2
      end{align*}
      end{document}





      share|improve this answer




























        3














        First, the source needs to be broken up inserting line breaks at suitable places so you can get some idea of the total structure of the formula. An editor that will show you matching parentheses and highlight text according to chosen patterns is a great help here.



        It turns out that the formula is a fraction in which most of the text is a parenthesised expression in the denumerator. That needs to be taken out, named, and typeset explicitly. I chose to call this expression Ξ.



        Also, there are lots of unnecessary leftright pairs. I deleted those. Further, I replaced text by the more appropriate mathrm. I ended up with the following code. It's a complete, compilable latex document. It still has multiple issues that need to be dealt with before you have a readable output. Most importantly, all the multicharacter variable names need some spacing around them. Use , for that.



        documentclass{article}
        usepackage{mathtools,amsfonts}
        allowdisplaybreaks[1]
        begin{document}
        begin{equation}
        f_2=frac{
        sqrt{frac{s-4 mathrm{mpsi}^2}{s-4 mathrm{me}^2}}
        Xi theta (s-4 mathrm{mpsi}^2)}
        {256 mathrm{cw}^2 mathrm{mZ}^4 pi ^2 s^3
        (mathrm{mZ}^4
        +(Gamma ^2-2 s) mathrm{mZ}^2+s^2)^{3/2}}
        end{equation}
        where
        begin{align*}
        Xi&=16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
        mathrm{gpsi} s^2
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        cos (theta ) mathrm{mZ}^8
        \&
        -64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
        sqrt{s (-4 mathrm{me}^2 +4 mathrm{mpsi}^2+s)} cos (theta ) mathrm{mZ}^8
        +8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
        cos (theta ) mathrm{mZ}^6
        \&
        -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^3 cos
        (theta ) mathrm{mZ}^6
        \&
        +16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^2
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        Gamma ^2 cos (theta ) mathrm{mZ}^6
        \&
        -64 mathrm{ca} mathrm{cw}
        mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        Gamma ^2 cos (theta ) mathrm{mZ}^6
        \&
        -40 mathrm{ca} mathrm{cw} mathrm{EE}^2
        g mathrm{gpsi} s^3
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        cos (theta ) mathrm{mZ}^6
        \&
        +160 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
        mathrm{gpsi} mathrm{me}^2 s^2
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
        mathrm{mZ}^6
        \&
        -16 mathrm{ca} mathrm{cw} mathrm{EE}^2
        g mathrm{gpsi} s^5 cos (theta ) mathrm{mZ}^4
        \&
        +64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^4
        cos (theta ) mathrm{mZ}^4
        \&
        +8 mathrm{ca}
        mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4 Gamma ^2 cos (theta ) mathrm{mZ}^4
        \&
        -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
        s^3 Gamma ^2 cos (theta ) mathrm{mZ}^4
        \&
        -8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^3
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        Gamma ^2 cos (theta ) mathrm{mZ}^4
        \&
        +32 mathrm{ca} mathrm{cw} mathrm{EE}^2
        g mathrm{gpsi} mathrm{me}^2 s^2
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        Gamma ^2 cos (theta ) mathrm{mZ}^4
        \&
        +32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        cos (theta ) mathrm{mZ}^4
        \&
        -128 mathrm{ca} mathrm{cw} mathrm{EE}^2
        g mathrm{gpsi} mathrm{me}^2 s^3
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        cos (theta ) mathrm{mZ}^4
        \&
        -8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^3
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
        cos (theta ) mathrm{mZ}^4
        \&
        +32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2
        mathrm{me}^2 s^2
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
        cos (theta ) mathrm{mZ}^4
        \&
        +8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
        mathrm{gpsi} s^6 cos (theta ) mathrm{mZ}^2
        -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
        s^5 cos (theta ) mathrm{mZ}^2
        \&
        -8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^5
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        cos (theta ) mathrm{mZ}^2
        \&
        +32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
        mathrm{gpsi} mathrm{me}^2 s^4
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
        mathrm{mZ}^2
        \&
        -8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^5
        sqrt{mathrm{mZ}^4+(Gamma ^2-2 s)
        mathrm{mZ}^2+s^2} cos (theta ) mathrm{mZ}^2
        \&
        +32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^4
        sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
        cos (theta ) mathrm{mZ}^2
        \&
        +8 a mathrm{ca}
        mathrm{cv} g^2 mathrm{gpsi}^2 s^4
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
        cos (theta ) mathrm{mZ}^2
        \&
        -32 a mathrm{ca}
        mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^3
        sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
        sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
        cos (theta ) mathrm{mZ}^2
        end{align*}
        end{document}





        share|improve this answer


























          3












          3








          3







          First, the source needs to be broken up inserting line breaks at suitable places so you can get some idea of the total structure of the formula. An editor that will show you matching parentheses and highlight text according to chosen patterns is a great help here.



          It turns out that the formula is a fraction in which most of the text is a parenthesised expression in the denumerator. That needs to be taken out, named, and typeset explicitly. I chose to call this expression Ξ.



          Also, there are lots of unnecessary leftright pairs. I deleted those. Further, I replaced text by the more appropriate mathrm. I ended up with the following code. It's a complete, compilable latex document. It still has multiple issues that need to be dealt with before you have a readable output. Most importantly, all the multicharacter variable names need some spacing around them. Use , for that.



          documentclass{article}
          usepackage{mathtools,amsfonts}
          allowdisplaybreaks[1]
          begin{document}
          begin{equation}
          f_2=frac{
          sqrt{frac{s-4 mathrm{mpsi}^2}{s-4 mathrm{me}^2}}
          Xi theta (s-4 mathrm{mpsi}^2)}
          {256 mathrm{cw}^2 mathrm{mZ}^4 pi ^2 s^3
          (mathrm{mZ}^4
          +(Gamma ^2-2 s) mathrm{mZ}^2+s^2)^{3/2}}
          end{equation}
          where
          begin{align*}
          Xi&=16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
          mathrm{gpsi} s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^8
          \&
          -64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
          sqrt{s (-4 mathrm{me}^2 +4 mathrm{mpsi}^2+s)} cos (theta ) mathrm{mZ}^8
          +8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
          cos (theta ) mathrm{mZ}^6
          \&
          -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^3 cos
          (theta ) mathrm{mZ}^6
          \&
          +16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          Gamma ^2 cos (theta ) mathrm{mZ}^6
          \&
          -64 mathrm{ca} mathrm{cw}
          mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          Gamma ^2 cos (theta ) mathrm{mZ}^6
          \&
          -40 mathrm{ca} mathrm{cw} mathrm{EE}^2
          g mathrm{gpsi} s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^6
          \&
          +160 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
          mathrm{gpsi} mathrm{me}^2 s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
          mathrm{mZ}^6
          \&
          -16 mathrm{ca} mathrm{cw} mathrm{EE}^2
          g mathrm{gpsi} s^5 cos (theta ) mathrm{mZ}^4
          \&
          +64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^4
          cos (theta ) mathrm{mZ}^4
          \&
          +8 mathrm{ca}
          mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4 Gamma ^2 cos (theta ) mathrm{mZ}^4
          \&
          -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
          s^3 Gamma ^2 cos (theta ) mathrm{mZ}^4
          \&
          -8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          Gamma ^2 cos (theta ) mathrm{mZ}^4
          \&
          +32 mathrm{ca} mathrm{cw} mathrm{EE}^2
          g mathrm{gpsi} mathrm{me}^2 s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          Gamma ^2 cos (theta ) mathrm{mZ}^4
          \&
          +32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^4
          \&
          -128 mathrm{ca} mathrm{cw} mathrm{EE}^2
          g mathrm{gpsi} mathrm{me}^2 s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^4
          \&
          -8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^4
          \&
          +32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2
          mathrm{me}^2 s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^4
          \&
          +8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
          mathrm{gpsi} s^6 cos (theta ) mathrm{mZ}^2
          -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
          s^5 cos (theta ) mathrm{mZ}^2
          \&
          -8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^5
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^2
          \&
          +32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
          mathrm{gpsi} mathrm{me}^2 s^4
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
          mathrm{mZ}^2
          \&
          -8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^5
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s)
          mathrm{mZ}^2+s^2} cos (theta ) mathrm{mZ}^2
          \&
          +32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^4
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^2
          \&
          +8 a mathrm{ca}
          mathrm{cv} g^2 mathrm{gpsi}^2 s^4
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^2
          \&
          -32 a mathrm{ca}
          mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^2
          end{align*}
          end{document}





          share|improve this answer













          First, the source needs to be broken up inserting line breaks at suitable places so you can get some idea of the total structure of the formula. An editor that will show you matching parentheses and highlight text according to chosen patterns is a great help here.



          It turns out that the formula is a fraction in which most of the text is a parenthesised expression in the denumerator. That needs to be taken out, named, and typeset explicitly. I chose to call this expression Ξ.



          Also, there are lots of unnecessary leftright pairs. I deleted those. Further, I replaced text by the more appropriate mathrm. I ended up with the following code. It's a complete, compilable latex document. It still has multiple issues that need to be dealt with before you have a readable output. Most importantly, all the multicharacter variable names need some spacing around them. Use , for that.



          documentclass{article}
          usepackage{mathtools,amsfonts}
          allowdisplaybreaks[1]
          begin{document}
          begin{equation}
          f_2=frac{
          sqrt{frac{s-4 mathrm{mpsi}^2}{s-4 mathrm{me}^2}}
          Xi theta (s-4 mathrm{mpsi}^2)}
          {256 mathrm{cw}^2 mathrm{mZ}^4 pi ^2 s^3
          (mathrm{mZ}^4
          +(Gamma ^2-2 s) mathrm{mZ}^2+s^2)^{3/2}}
          end{equation}
          where
          begin{align*}
          Xi&=16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
          mathrm{gpsi} s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^8
          \&
          -64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
          sqrt{s (-4 mathrm{me}^2 +4 mathrm{mpsi}^2+s)} cos (theta ) mathrm{mZ}^8
          +8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
          cos (theta ) mathrm{mZ}^6
          \&
          -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^3 cos
          (theta ) mathrm{mZ}^6
          \&
          +16 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          Gamma ^2 cos (theta ) mathrm{mZ}^6
          \&
          -64 mathrm{ca} mathrm{cw}
          mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          Gamma ^2 cos (theta ) mathrm{mZ}^6
          \&
          -40 mathrm{ca} mathrm{cw} mathrm{EE}^2
          g mathrm{gpsi} s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^6
          \&
          +160 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
          mathrm{gpsi} mathrm{me}^2 s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
          mathrm{mZ}^6
          \&
          -16 mathrm{ca} mathrm{cw} mathrm{EE}^2
          g mathrm{gpsi} s^5 cos (theta ) mathrm{mZ}^4
          \&
          +64 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2 s^4
          cos (theta ) mathrm{mZ}^4
          \&
          +8 mathrm{ca}
          mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4 Gamma ^2 cos (theta ) mathrm{mZ}^4
          \&
          -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
          s^3 Gamma ^2 cos (theta ) mathrm{mZ}^4
          \&
          -8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          Gamma ^2 cos (theta ) mathrm{mZ}^4
          \&
          +32 mathrm{ca} mathrm{cw} mathrm{EE}^2
          g mathrm{gpsi} mathrm{me}^2 s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          Gamma ^2 cos (theta ) mathrm{mZ}^4
          \&
          +32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^4
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^4
          \&
          -128 mathrm{ca} mathrm{cw} mathrm{EE}^2
          g mathrm{gpsi} mathrm{me}^2 s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^4
          \&
          -8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^4
          \&
          +32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2
          mathrm{me}^2 s^2
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^4
          \&
          +8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
          mathrm{gpsi} s^6 cos (theta ) mathrm{mZ}^2
          -32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} mathrm{me}^2
          s^5 cos (theta ) mathrm{mZ}^2
          \&
          -8 mathrm{ca} mathrm{cw} mathrm{EE}^2 g mathrm{gpsi} s^5
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          cos (theta ) mathrm{mZ}^2
          \&
          +32 mathrm{ca} mathrm{cw} mathrm{EE}^2 g
          mathrm{gpsi} mathrm{me}^2 s^4
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)} cos (theta )
          mathrm{mZ}^2
          \&
          -8 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 s^5
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s)
          mathrm{mZ}^2+s^2} cos (theta ) mathrm{mZ}^2
          \&
          +32 a mathrm{ca} mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^4
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^2
          \&
          +8 a mathrm{ca}
          mathrm{cv} g^2 mathrm{gpsi}^2 s^4
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^2
          \&
          -32 a mathrm{ca}
          mathrm{cv} g^2 mathrm{gpsi}^2 mathrm{me}^2 s^3
          sqrt{s (-4 mathrm{me}^2+4 mathrm{mpsi}^2+s)}
          sqrt{mathrm{mZ}^4+(Gamma ^2-2 s) mathrm{mZ}^2+s^2}
          cos (theta ) mathrm{mZ}^2
          end{align*}
          end{document}






          share|improve this answer












          share|improve this answer



          share|improve this answer










          answered 1 hour ago









          Harald Hanche-OlsenHarald Hanche-Olsen

          13.2k24762




          13.2k24762























              2














              There are a lot of repeated items in your equation. I suggest you do something like this, which eliminates all left and right sizing directives.



              enter image description here



              documentclass{article}
              usepackage{mathtools}
              newcommandvn[1]{mathrm{,#1}}
              allowdisplaybreaks
              begin{document}
              noindent
              Put
              $psi=sqrt{smash[b]{s (-4 vn{me}^2+4 vn{mpsi}^2+s)}}$,
              $phi=sqrt{smash[b]{vn{mZ}^4 +(Gamma^2-2 s) vn{mZ}^2+s^2}}$,
              $kappa= vn{ca} vn{cw} vn{EE}^2, g vn{gpsi}$, and
              $lambda=vn{ca} vn{cv}, g^2 vn{gpsi}^2$.
              Then
              begin{align*}
              f_2 &=ucdot v/w, \
              shortintertext{where}
              u &= sqrt{frac{s-4 vn{mpsi}^2}{s-4 vn{me}^2}},,\
              v &=begin{aligned}[t]bigl[
              &16 kappa s^2 psi costheta vn{mZ}^8
              \&-64 kappa vn{me}^2 s psi costheta vn{mZ}^8
              \&+8 kappa s^4costheta vn{mZ}^6
              \&-32 kappa vn{me}^2 s^3 costheta vn{mZ}^6
              \&+16 kappa s^2 psi Gamma^2 costheta vn{mZ}^6
              \&-64 kappa vn{me}^2 s psi Gamma^2 costheta vn{mZ}^6
              \&-40 kappa s^3 psi costheta vn{mZ}^6
              \&+160kappa vn{me}^2 s^2 psi costheta vn{mZ}^6
              \&-16 kappa s^5 costheta vn{mZ}^4
              \&+64 kappa vn{me}^2 s^4 costheta vn{mZ}^4
              \&+8 kappa s^4 Gamma^2 costheta vn{mZ}^4
              \&-32 kappa vn{me}^2 s^3 Gamma^2 costheta vn{mZ}^4
              \&-8 kappa s^3 psi Gamma^2 costheta vn{mZ}^4
              \&+32 kappa vn{me}^2 s^2 psi Gamma^2 costheta vn{mZ}^4
              \&+32 kappa s^4 psi costheta vn{mZ}^4
              \&-128kappa vn{me}^2 s^3 psi costheta vn{mZ}^4
              \&+8 kappa s^6 costheta vn{mZ}^2
              \&-32 kappa vn{me}^2 s^5 costheta vn{mZ}^2
              \&-8 kappa s^5 psi costheta vn{mZ}^2
              \&+32 kappa vn{me}^2 s^4 psi costheta vn{mZ}^2
              \&-8 alambda s^3 psi phi costheta vn{mZ}^4
              \&+32alambda vn{me}^2 s^2 psi phi costheta vn{mZ}^4
              \&-8 alambda s^5 phi costheta vn{mZ}^2
              \&+32alambda vn{me}^2 s^4 psi costheta vn{mZ}^2
              \&+8 alambda s^4 psi phi costheta vn{mZ}^2
              \&-32alambda vn{me}^2 s^3 psi phi costheta vn{mZ}^2bigr]
              theta(s-4 vn{mpsi}^2)
              end{aligned}\
              shortintertext{and}
              w &=256 vn{cw}^2 vn{mZ}^4 pi^2 s^3 phi^3.
              end{align*}
              end{document}





              share|improve this answer




























                2














                There are a lot of repeated items in your equation. I suggest you do something like this, which eliminates all left and right sizing directives.



                enter image description here



                documentclass{article}
                usepackage{mathtools}
                newcommandvn[1]{mathrm{,#1}}
                allowdisplaybreaks
                begin{document}
                noindent
                Put
                $psi=sqrt{smash[b]{s (-4 vn{me}^2+4 vn{mpsi}^2+s)}}$,
                $phi=sqrt{smash[b]{vn{mZ}^4 +(Gamma^2-2 s) vn{mZ}^2+s^2}}$,
                $kappa= vn{ca} vn{cw} vn{EE}^2, g vn{gpsi}$, and
                $lambda=vn{ca} vn{cv}, g^2 vn{gpsi}^2$.
                Then
                begin{align*}
                f_2 &=ucdot v/w, \
                shortintertext{where}
                u &= sqrt{frac{s-4 vn{mpsi}^2}{s-4 vn{me}^2}},,\
                v &=begin{aligned}[t]bigl[
                &16 kappa s^2 psi costheta vn{mZ}^8
                \&-64 kappa vn{me}^2 s psi costheta vn{mZ}^8
                \&+8 kappa s^4costheta vn{mZ}^6
                \&-32 kappa vn{me}^2 s^3 costheta vn{mZ}^6
                \&+16 kappa s^2 psi Gamma^2 costheta vn{mZ}^6
                \&-64 kappa vn{me}^2 s psi Gamma^2 costheta vn{mZ}^6
                \&-40 kappa s^3 psi costheta vn{mZ}^6
                \&+160kappa vn{me}^2 s^2 psi costheta vn{mZ}^6
                \&-16 kappa s^5 costheta vn{mZ}^4
                \&+64 kappa vn{me}^2 s^4 costheta vn{mZ}^4
                \&+8 kappa s^4 Gamma^2 costheta vn{mZ}^4
                \&-32 kappa vn{me}^2 s^3 Gamma^2 costheta vn{mZ}^4
                \&-8 kappa s^3 psi Gamma^2 costheta vn{mZ}^4
                \&+32 kappa vn{me}^2 s^2 psi Gamma^2 costheta vn{mZ}^4
                \&+32 kappa s^4 psi costheta vn{mZ}^4
                \&-128kappa vn{me}^2 s^3 psi costheta vn{mZ}^4
                \&+8 kappa s^6 costheta vn{mZ}^2
                \&-32 kappa vn{me}^2 s^5 costheta vn{mZ}^2
                \&-8 kappa s^5 psi costheta vn{mZ}^2
                \&+32 kappa vn{me}^2 s^4 psi costheta vn{mZ}^2
                \&-8 alambda s^3 psi phi costheta vn{mZ}^4
                \&+32alambda vn{me}^2 s^2 psi phi costheta vn{mZ}^4
                \&-8 alambda s^5 phi costheta vn{mZ}^2
                \&+32alambda vn{me}^2 s^4 psi costheta vn{mZ}^2
                \&+8 alambda s^4 psi phi costheta vn{mZ}^2
                \&-32alambda vn{me}^2 s^3 psi phi costheta vn{mZ}^2bigr]
                theta(s-4 vn{mpsi}^2)
                end{aligned}\
                shortintertext{and}
                w &=256 vn{cw}^2 vn{mZ}^4 pi^2 s^3 phi^3.
                end{align*}
                end{document}





                share|improve this answer


























                  2












                  2








                  2







                  There are a lot of repeated items in your equation. I suggest you do something like this, which eliminates all left and right sizing directives.



                  enter image description here



                  documentclass{article}
                  usepackage{mathtools}
                  newcommandvn[1]{mathrm{,#1}}
                  allowdisplaybreaks
                  begin{document}
                  noindent
                  Put
                  $psi=sqrt{smash[b]{s (-4 vn{me}^2+4 vn{mpsi}^2+s)}}$,
                  $phi=sqrt{smash[b]{vn{mZ}^4 +(Gamma^2-2 s) vn{mZ}^2+s^2}}$,
                  $kappa= vn{ca} vn{cw} vn{EE}^2, g vn{gpsi}$, and
                  $lambda=vn{ca} vn{cv}, g^2 vn{gpsi}^2$.
                  Then
                  begin{align*}
                  f_2 &=ucdot v/w, \
                  shortintertext{where}
                  u &= sqrt{frac{s-4 vn{mpsi}^2}{s-4 vn{me}^2}},,\
                  v &=begin{aligned}[t]bigl[
                  &16 kappa s^2 psi costheta vn{mZ}^8
                  \&-64 kappa vn{me}^2 s psi costheta vn{mZ}^8
                  \&+8 kappa s^4costheta vn{mZ}^6
                  \&-32 kappa vn{me}^2 s^3 costheta vn{mZ}^6
                  \&+16 kappa s^2 psi Gamma^2 costheta vn{mZ}^6
                  \&-64 kappa vn{me}^2 s psi Gamma^2 costheta vn{mZ}^6
                  \&-40 kappa s^3 psi costheta vn{mZ}^6
                  \&+160kappa vn{me}^2 s^2 psi costheta vn{mZ}^6
                  \&-16 kappa s^5 costheta vn{mZ}^4
                  \&+64 kappa vn{me}^2 s^4 costheta vn{mZ}^4
                  \&+8 kappa s^4 Gamma^2 costheta vn{mZ}^4
                  \&-32 kappa vn{me}^2 s^3 Gamma^2 costheta vn{mZ}^4
                  \&-8 kappa s^3 psi Gamma^2 costheta vn{mZ}^4
                  \&+32 kappa vn{me}^2 s^2 psi Gamma^2 costheta vn{mZ}^4
                  \&+32 kappa s^4 psi costheta vn{mZ}^4
                  \&-128kappa vn{me}^2 s^3 psi costheta vn{mZ}^4
                  \&+8 kappa s^6 costheta vn{mZ}^2
                  \&-32 kappa vn{me}^2 s^5 costheta vn{mZ}^2
                  \&-8 kappa s^5 psi costheta vn{mZ}^2
                  \&+32 kappa vn{me}^2 s^4 psi costheta vn{mZ}^2
                  \&-8 alambda s^3 psi phi costheta vn{mZ}^4
                  \&+32alambda vn{me}^2 s^2 psi phi costheta vn{mZ}^4
                  \&-8 alambda s^5 phi costheta vn{mZ}^2
                  \&+32alambda vn{me}^2 s^4 psi costheta vn{mZ}^2
                  \&+8 alambda s^4 psi phi costheta vn{mZ}^2
                  \&-32alambda vn{me}^2 s^3 psi phi costheta vn{mZ}^2bigr]
                  theta(s-4 vn{mpsi}^2)
                  end{aligned}\
                  shortintertext{and}
                  w &=256 vn{cw}^2 vn{mZ}^4 pi^2 s^3 phi^3.
                  end{align*}
                  end{document}





                  share|improve this answer













                  There are a lot of repeated items in your equation. I suggest you do something like this, which eliminates all left and right sizing directives.



                  enter image description here



                  documentclass{article}
                  usepackage{mathtools}
                  newcommandvn[1]{mathrm{,#1}}
                  allowdisplaybreaks
                  begin{document}
                  noindent
                  Put
                  $psi=sqrt{smash[b]{s (-4 vn{me}^2+4 vn{mpsi}^2+s)}}$,
                  $phi=sqrt{smash[b]{vn{mZ}^4 +(Gamma^2-2 s) vn{mZ}^2+s^2}}$,
                  $kappa= vn{ca} vn{cw} vn{EE}^2, g vn{gpsi}$, and
                  $lambda=vn{ca} vn{cv}, g^2 vn{gpsi}^2$.
                  Then
                  begin{align*}
                  f_2 &=ucdot v/w, \
                  shortintertext{where}
                  u &= sqrt{frac{s-4 vn{mpsi}^2}{s-4 vn{me}^2}},,\
                  v &=begin{aligned}[t]bigl[
                  &16 kappa s^2 psi costheta vn{mZ}^8
                  \&-64 kappa vn{me}^2 s psi costheta vn{mZ}^8
                  \&+8 kappa s^4costheta vn{mZ}^6
                  \&-32 kappa vn{me}^2 s^3 costheta vn{mZ}^6
                  \&+16 kappa s^2 psi Gamma^2 costheta vn{mZ}^6
                  \&-64 kappa vn{me}^2 s psi Gamma^2 costheta vn{mZ}^6
                  \&-40 kappa s^3 psi costheta vn{mZ}^6
                  \&+160kappa vn{me}^2 s^2 psi costheta vn{mZ}^6
                  \&-16 kappa s^5 costheta vn{mZ}^4
                  \&+64 kappa vn{me}^2 s^4 costheta vn{mZ}^4
                  \&+8 kappa s^4 Gamma^2 costheta vn{mZ}^4
                  \&-32 kappa vn{me}^2 s^3 Gamma^2 costheta vn{mZ}^4
                  \&-8 kappa s^3 psi Gamma^2 costheta vn{mZ}^4
                  \&+32 kappa vn{me}^2 s^2 psi Gamma^2 costheta vn{mZ}^4
                  \&+32 kappa s^4 psi costheta vn{mZ}^4
                  \&-128kappa vn{me}^2 s^3 psi costheta vn{mZ}^4
                  \&+8 kappa s^6 costheta vn{mZ}^2
                  \&-32 kappa vn{me}^2 s^5 costheta vn{mZ}^2
                  \&-8 kappa s^5 psi costheta vn{mZ}^2
                  \&+32 kappa vn{me}^2 s^4 psi costheta vn{mZ}^2
                  \&-8 alambda s^3 psi phi costheta vn{mZ}^4
                  \&+32alambda vn{me}^2 s^2 psi phi costheta vn{mZ}^4
                  \&-8 alambda s^5 phi costheta vn{mZ}^2
                  \&+32alambda vn{me}^2 s^4 psi costheta vn{mZ}^2
                  \&+8 alambda s^4 psi phi costheta vn{mZ}^2
                  \&-32alambda vn{me}^2 s^3 psi phi costheta vn{mZ}^2bigr]
                  theta(s-4 vn{mpsi}^2)
                  end{aligned}\
                  shortintertext{and}
                  w &=256 vn{cw}^2 vn{mZ}^4 pi^2 s^3 phi^3.
                  end{align*}
                  end{document}






                  share|improve this answer












                  share|improve this answer



                  share|improve this answer










                  answered 41 mins ago









                  MicoMico

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                  286k32391779






















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