Positioning quickness
I'm using Mathematica, after generating output, I need to insert the latex output into latex file. But the problem is equations are too long and takes huge time to split up. is there any way to split quickly? here is the input:
\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right)+g_2\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}2 +g_3\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}3 + g_4\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}4+g_5\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}5+g_6\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}6+g_7\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}7+g_8\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}8
I'm using Mathematica, after generating output, I need to insert the latex output into latex file. But the problem is equations are too long and takes huge time to split up. is there any way to split quickly? here is the input:
\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right)+g_2\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}2 +g_3\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}3 + g_4\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}4+g_5\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}5+g_6\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}6+g_7\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}7+g_8\left(\epsilon ^1 \phi _1+ \epsilon ^2 \phi _2 + \epsilon ^3 \phi _3 +\epsilon ^4 \phi _4+\epsilon ^5 \phi _5+\epsilon ^6 \phi _5+\epsilon ^7 \phi _5+\epsilon ^8 \phi _5\right){}^{\wedge}8
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