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If the group G is all nonzero real numbers, then the Haar measure is given by <math>\mu (S)=\int _{S}{\frac  {1}{|t|}}\,dt</math>
 
If the group G is all nonzero real numbers, then the Haar measure is given by <math>\mu (S)=\int _{S}{\frac  {1}{|t|}}\,dt</math>
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For more reading on examples of Haar measures: https://en.wikipedia.org/wiki/Haar_measure#Examples

Revision as of 23:49, 6 December 2020

Examples

If a Haar measure is done on the topological group $ {\displaystyle (\mathbb {R} ,+)} $ (meaning the set is all real numbers and the binary operation is addition), the Haar measure takes the value of 1 on the closed interval from zero to one and is equal to a Lebesgue measure taken on the Borel subsets to all real numbers. This can be generalized to any dimension.

If the group G is all nonzero real numbers, then the Haar measure is given by $ \mu (S)=\int _{S}{\frac {1}{|t|}}\,dt $

For more reading on examples of Haar measures: https://en.wikipedia.org/wiki/Haar_measure#Examples

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Ryne Rayburn