Transformação de coordenadas TikZ resultando em posição mal calculada do nó

Isso acontece porque o autor tkz-euclideassume que os vetores unitários serão cada um 1cm. Você pode ver o que está acontecendo observando a definição de \tkz@InterLL(uma macro privada usada pela \tkzInterLLqual retorna o ponto de interseção que é armazenado coordinate Epor \tkzGetPoint{E}... ufa!).

Aqui está:

\def\tkz@InterLL(#1,#2)(#3,#4)#5{%
%\path (intersection of #1--#2 and #3--#4) coordinate(#5);%
\pgfextractx{\pgf@x}{\pgfpointanchor{#1}{center}}
\pgfextracty{\pgf@y}{\pgfpointanchor{#1}{center}} 
\tkz@ax\pgf@x %
\tkz@ay\pgf@y %
\pgfextractx{\pgf@x}{\pgfpointanchor{#2}{center}}
\pgfextracty{\pgf@y}{\pgfpointanchor{#2}{center}} 
\tkz@bx\pgf@x %
\tkz@by\pgf@y %
\pgfextractx{\pgf@x}{\pgfpointanchor{#3}{center}}
\pgfextracty{\pgf@y}{\pgfpointanchor{#3}{center}} 
\tkz@cx\pgf@x %
\tkz@cy\pgf@y %
\pgfextractx{\pgf@x}{\pgfpointanchor{#4}{center}}
\pgfextracty{\pgf@y}{\pgfpointanchor{#4}{center}} 
\tkz@dx\pgf@x %
\tkz@dy\pgf@y %
\FPeval\tkz@deltax{\pgf@sys@tonumber{\tkz@ax}-\pgf@sys@tonumber{\tkz@bx}}
\FPdiv\tkz@deltax{\tkz@deltax}{28.45274}
\FPeval\tkz@deltaxx{\pgf@sys@tonumber{\tkz@cx}-\pgf@sys@tonumber{\tkz@dx}}
\FPdiv\tkz@deltaxx{\tkz@deltaxx}{28.45274}
\FPeval\tkz@deltay{\pgf@sys@tonumber{\tkz@ay}-\pgf@sys@tonumber{\tkz@by}}
\FPdiv\tkz@deltay{\tkz@deltay}{28.45274}
\FPeval\tkz@deltayy{\pgf@sys@tonumber{\tkz@cy}-\pgf@sys@tonumber{\tkz@dy}}
\FPdiv\tkz@deltayy{\tkz@deltayy}{28.45274}
\FPeval\tkz@deltaxy{(\pgf@sys@tonumber{\tkz@ax}*\pgf@sys@tonumber{\tkz@by})-(\pgf@sys@tonumber{\tkz@ay}*\pgf@sys@tonumber{\tkz@bx})}
\FPdiv\tkz@deltaxy{\tkz@deltaxy}{28.45274}
\FPdiv\tkz@deltaxy{\tkz@deltaxy}{28.45274}
\FPeval\tkz@deltaxxyy{(\pgf@sys@tonumber{\tkz@cx}*\pgf@sys@tonumber{\tkz@dy})-(\pgf@sys@tonumber{\tkz@cy}*\pgf@sys@tonumber{\tkz@dx})}
\FPdiv\tkz@deltaxxyy{\tkz@deltaxxyy}{28.45274}
\FPdiv\tkz@deltaxxyy{\tkz@deltaxxyy}{28.45274}
\FPeval\tkz@div{(\tkz@deltax*\tkz@deltayy)-(\tkz@deltay*\tkz@deltaxx)}
\FPeval\tkz@numx{(\tkz@deltaxy*\tkz@deltaxx)-(\tkz@deltax*\tkz@deltaxxyy)}
\FPeval\tkz@numy{(\tkz@deltaxy*\tkz@deltayy)-(\tkz@deltay*\tkz@deltaxxyy)}
\FPdiv\tkz@xs{\tkz@numx}{\tkz@div}
\FPdiv\tkz@ys{\tkz@numy}{\tkz@div}
\FPround\tkz@xs{\tkz@xs}{5}
\FPround\tkz@ys{\tkz@ys}{5}
\path[coordinate](\tkz@xs,\tkz@ys) coordinate (#5);
}

Vê todos aqueles 28.45274no meio? Isso é a conversão de um comprimento de vetor unitário assumido 1cmem unidades de ptpara arredondamento e uso posteriores.

Então, como teste, vamos tentar definir a escala em termos de inser equivalente a 1cm:

\documentclass[border=4pt]{standalone}
\usepackage{tikz}
\usetikzlibrary{calc}
\usepackage{tkz-euclide}
\usetkzobj{all}
\begin{document}

\begin{tikzpicture}[x=0.3937in, y=0.3937in] % works
%\begin{tikzpicture}[x=0.3937in, y=1cm]      % works
%\begin{tikzpicture}[x=1cm, y=0.3937in]      % works
%\begin{tikzpicture}[x=1cm, y=1cm]           % works
%\begin{tikzpicture}                         % works

  \coordinate (Q) at (0,0);
  \coordinate (A) at (-170:1);
  \coordinate (B) at (-70:1);
  \coordinate (C) at (-20:1);
  \coordinate (D) at (50:1);

  \tkzInterLL(A,C)(B,D) 
  \tkzGetPoint{E}

  \draw (A) --  (C);
  \draw (B) --  (D);

  \node[circle,fill,inner sep=1pt]  at (E) {};

\end{tikzpicture}

\end{document}

Cada uma dessas linhas dá o resultado correto. Mas se eu fizer x=0.5inou y=2cm, o ponto ficará desalinhado em um dos eixos. E se ambos os vetores unitários forem alterados, o ponto ficará desalinhado em ambos os eixos.

DRAo usar tkz-euclide, você pode usar quaisquer vetores unitários que desejar, desde que sejam equivalentes a x=1cm, y=1cm.