This page is set to execute \begin{axiom}... \end{axiom} commands using FriCAS: axiom )version Any comments added here with use this version of FriCAS. ... --meliusja, Tue, 08 Apr 2008 10:38:33 -0700 reply axiom solve(s=vt+at^2/2,t)
Type: List(Equation(Fraction(Polynomial(Integer)))) axiom radicalsolve(s=vt+at^2/2,t) axiom solve(vt+at^2/2-s=0,t)
Type: List(Equation(Fraction(Polynomial(Integer)))) axiom solve(vt+at/2-s=0,t)
Type: List(Equation(Fraction(Polynomial(Integer)))) axiom solve(v*t+a*t/2-s=0,t)
Type: List(Equation(Fraction(Polynomial(Integer)))) axiom solve(v*t+a*t^2/2-s=0,t)
Type: List(Equation(Fraction(Polynomial(Integer)))) axiom radicalSolve(p^3 - p + 1/10=0,p)
Type: List(Equation(Expression(Integer))) |
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last edited 1 year ago by jakubi |
![\label{eq1}\left[ \right]](images/5593850768678758914-16.0px.png "\label{eq1}\left[ \right]")
![\label{eq2}\left[ \right]](images/4639340934722937175-16.0px.png "\label{eq2}\left[ \right]")
![\label{eq3}\left[ \right]](images/6232158369117544840-16.0px.png "\label{eq3}\left[ \right]")
![\label{eq4}\left[{t ={{2 \ s}\over{{2 \ v}+ a}}}\right]](images/8960521390264863693-16.0px.png "\label{eq4}\left[{t ={{2 \ s}\over{{2 \ v}+ a}}}\right]")
![\label{eq5}\left[{{{2 \ t \ v}+{a \ {t^2}}-{2 \ s}}= 0}\right]](images/6991172456551456675-16.0px.png "\label{eq5}\left[{{{2 \ t \ v}+{a \ {t^2}}-{2 \ s}}= 0}\right]")
![\label{eq6}\begin{array}{@{}l}
\displaystyle
\left[{p ={{{{\left(-{3 \ {\sqrt{- 3}}}+ 3 \right)}\ {{\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}^2}}- 2}\over{{\left({3 \ {\sqrt{- 3}}}+ 3 \right)}\ {\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}}}}, \: \right.
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\displaystyle
\left.{p ={{{{\left(-{3 \ {\sqrt{- 3}}}- 3 \right)}\ {{\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}^2}}+ 2}\over{{\left({3 \ {\sqrt{- 3}}}- 3 \right)}\ {\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}}}}, \: \right.
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\displaystyle
\left.{p ={{{3 \ {{\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{37
3}}}}\over{{60}\ {\sqrt{3}}}}}^2}}+ 1}\over{3 \ {\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}}}}\right]](images/1839528956434570445-16.0px.png "\label{eq6}\begin{array}{@{}l}
\displaystyle
\left[{p ={{{{\left(-{3 \ {\sqrt{- 3}}}+ 3 \right)}\ {{\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}^2}}- 2}\over{{\left({3 \ {\sqrt{- 3}}}+ 3 \right)}\ {\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}}}}, \: \right.
\
\
\displaystyle
\left.{p ={{{{\left(-{3 \ {\sqrt{- 3}}}- 3 \right)}\ {{\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}^2}}+ 2}\over{{\left({3 \ {\sqrt{- 3}}}- 3 \right)}\ {\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}}}}, \: \right.
\
\
\displaystyle
\left.{p ={{{3 \ {{\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{37
3}}}}\over{{60}\ {\sqrt{3}}}}}^2}}+ 1}\over{3 \ {\root{3}\of{{-{3 \ {\sqrt{3}}}+{\sqrt{-{373}}}}\over{{60}\ {\sqrt{3}}}}}}}}\right]")