1 ELEKTRON RÉSZECSKE-FÉLE EGYENLETEK
Hg 2 + → I − HgI 2 → I − [ Hg II I 4 ] 2 − CO 2 + C ⟶ 2 COH 2 OSb 2 O 3 H + CrO 4 2 − [ AgCl 2 ] − Y 9 9 + Y 99 + Fe II Fe 2042 III H 2 O 1 / 2 H 2 O ( 1 2 ) H 2 OnH 2 O 90 227 Th 279 + 2 0 Th + ( NH 4 ) 2 S [ { ( X 2 ) 3 } 2 ] 3 + {\displaystyle {\ce {Hg^{2}+->[I-]HgI2->[I-]{[Hg^{II}I4]^{2}-}CO2+C->2COH2OSb2O3H+CrO4^{2}-[AgCl2]-Y^{9}9+Y^{99+}Fe^{II}Fe^{III}2042H2O1/2H2O(1/2)H2OnH2O_{90}^{227}Th+^{2}27_{9}0Th+(NH4)2S[\{(X2)3\}2]^{3}+}}}
SO 4 2 − + Ba 2 + ⟶ BaSO 4 vA ± BA = BA − BA + BA → D T B {\displaystyle {\ce {SO4^2- + Ba^2+ -> BaSO4 vA \pm BA = BA - BA + BA ->[{T}][{D}] B}}}
f ( x ) = ( a + b ) 2 = a 2 + 2 a b + b 2 f ( x ) = ( a + b ) 2 = a 2 + 2 a b + b 2 z = a f ( x , y , z ) = x + y + z z = a f ( x , y , z ) = x + y + z { 3 x + 5 y + z 7 x − 2 y + 4 z − 6 x + 3 y + 2 z A ← n + μ − 1 B → T n ± i − 1 C 1 + 2 + ⋯ + 100 ⏞ 5050 a + b + ⋯ + z ⏟ 26 p F q ( a 1 , … , a p b 1 , … , b q ; z ) ∂ 2 ∂ x 1 ∂ x 2 y ∏ ∑ x ′ ⨌ ∮ f ″ N N {\displaystyle {\begin{aligned}f(x)&=(a+b)^{2}\\&=a^{2}+2ab+b^{2}\\\end{aligned}}{\begin{alignedat}{2}f(x)&=(a+b)^{2}\\&=a^{2}+2ab+b^{2}\\\end{alignedat}}{\begin{array}{lcl}z&=&a\\f(x,y,z)&=&x+y+z\end{array}}{\begin{array}{lcr}z&=&a\\f(x,y,z)&=&x+y+z\end{array}}{\begin{cases}3x+5y+z\\7x-2y+4z\\-6x+3y+2z\end{cases}}A\xleftarrow {n+\mu -1} B{\xrightarrow[{T}]{n\pm i-1}}C\overbrace {1+2+\cdots +100} ^{5050}\underbrace {a+b+\cdots +z} _{26}{}_{p}F_{q}\left({a_{1},\ldots ,a_{p} \atop b_{1},\ldots ,b_{q}};z\right){\partial ^{2} \over \partial x_{1}\partial x_{2}}y\textstyle \prod _{\textstyle \sum _{x'\iiiint \oint f''}^{N}\displaystyle }^{N}\displaystyle }
p F q ( a 1 , … , a p b 1 , … , b q ; z ) A ← n + μ − 1 B → T n ± i − 1 C z = a f ( x , y , z ) = x + y + z a b S 0 0 1 0 1 1 1 0 1 1 1 0 z = a f ( x , y , z ) = x + y + z f ( n ) = { n / 2 , if n is even 3 n + 1 , if n is odd f ( x ) = ( a + b ) 2 = a 2 + 2 a b + b 2 f ( x ) = ( a + b ) 2 = a 2 + 2 a b + b 2 { 3 x + 5 y + z 7 x − 2 y + 4 z − 6 x + 3 y + 2 z {\displaystyle {}_{p}F_{q}\left({a_{1},\ldots ,a_{p} \atop b_{1},\ldots ,b_{q}};z\right)A\xleftarrow {n+\mu -1} B{\xrightarrow[{T}]{n\pm i-1}}C{\begin{array}{lcl}z&=&a\\f(x,y,z)&=&x+y+z\end{array}}{\begin{array}{|c|c|c|}a&b&S\\\hline 0&0&1\\0&1&1\\1&0&1\\1&1&0\\\end{array}}{\begin{array}{lcr}z&=&a\\f(x,y,z)&=&x+y+z\end{array}}f(n)={\begin{cases}n/2,&{\text{if }}n{\text{ is even}}\\3n+1,&{\text{if }}n{\text{ is odd}}\end{cases}}{\begin{aligned}f(x)&=(a+b)^{2}\\&=a^{2}+2ab+b^{2}\\\end{aligned}}{\begin{alignedat}{2}f(x)&=(a+b)^{2}\\&=a^{2}+2ab+b^{2}\\\end{alignedat}}{\begin{cases}3x+5y+z\\7x-2y+4z\\-6x+3y+2z\end{cases}}}
f ′ ∬ lim ∐ x y N → ∞ {\displaystyle f'\iint \lim _{\coprod _{xy}^{N}\to \infty }} Hg 2 + → I − HgI 2 → I − [ Hg II I 4 ] 2 − CO 2 + C ⟶ 2 COH + CrO 4 2 − [ AgCl 2 ] − Y 9 9 + Y 2 99 + H 2 O 1 / 2 H 2 O ( 1 2 ) H 2 OnH 2 OFe II Fe 204 III ( NH 4 ) 2 S [ { ( X 2 ) 3 } 2 ] 3 + {\displaystyle {\ce {Hg^{2}+->[I-]HgI2->[I-]{[Hg^{II}I4]^{2}-}CO2+C->2COH+CrO4^{2}-[AgCl2]-Y^{9}9+Y^{99+}2H2O1/2H2O(1/2)H2OnH2OFe^{II}Fe^{III}204(NH4)2S[\{(X2)3\}2]^{3}+}}}