User:Col Kob TinFrom Wikipedia, the free encyclopedia fi-4Tämä käyttäjä osaa suomea äidinkielen tavoin. en-3This user can contribute with an advanced level of English. fr-1Cet utilisateur peut contribuer avec un niveau élémentaire de français. de-1Dieser Benutzer hat grundlegende Deutschkenntnisse. PHP-2This user is an intermediate PHP programmer. C++-1This user is a beginning C++ programmer. MAT-1This user is a beginner MATLAB programmer. vhdl-1This user is a beginning VHDL chip designer. HTML-3This user is an advanced HTML user. xhtml-3This user is an advanced XHTML user. css-2This user is an intermediate Cascading Style Sheets user. XML-1This user is a beginning XML coder. This user has a keen interest in learning about Chemistry. This user has a keen interest in physics. This user enjoys electronics or is an electronics hobbyist. ∂ 2 Ψ ∂ t 2 = ∇ 2 Ψ {\displaystyle \scriptstyle {\frac {\partial ^{2}\Psi }{\partial t^{2}}}=\nabla ^{2}\Psi } This user is interested in mathematical physics. This user is interested in nanotechnology. This user contributes using a PDA. This user contributes using a PC. This user is interested in counter-terrorism. This user loves knowledge. This user enjoys the works of J. R. R. Tolkien.
fi-4Tämä käyttäjä osaa suomea äidinkielen tavoin. en-3This user can contribute with an advanced level of English. fr-1Cet utilisateur peut contribuer avec un niveau élémentaire de français. de-1Dieser Benutzer hat grundlegende Deutschkenntnisse. PHP-2This user is an intermediate PHP programmer. C++-1This user is a beginning C++ programmer. MAT-1This user is a beginner MATLAB programmer. vhdl-1This user is a beginning VHDL chip designer. HTML-3This user is an advanced HTML user. xhtml-3This user is an advanced XHTML user. css-2This user is an intermediate Cascading Style Sheets user. XML-1This user is a beginning XML coder. This user has a keen interest in learning about Chemistry. This user has a keen interest in physics. This user enjoys electronics or is an electronics hobbyist. ∂ 2 Ψ ∂ t 2 = ∇ 2 Ψ {\displaystyle \scriptstyle {\frac {\partial ^{2}\Psi }{\partial t^{2}}}=\nabla ^{2}\Psi } This user is interested in mathematical physics. This user is interested in nanotechnology. This user contributes using a PDA. This user contributes using a PC. This user is interested in counter-terrorism. This user loves knowledge. This user enjoys the works of J. R. R. Tolkien.