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GeometricMean definition

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3

$begingroup$

According to the documentation for
GeometricMean

GeometricMean[Table[x[i],{i,1,n}]]==Product[x[i],{i,1,n}]^(1/n)

Presumably this is correct for x[i] positive real.

However, GeometricMean returns answers for some negative and complex inputs that are not consistent with this definition.

For example

GeometricMean[{-4, -4}]

(* -4 *)

(Perhaps it simply recognises a constant list as a special case, and shortcuts the definition to give an incorrect answer?)

functions

share|improve this question

edited 2 hours ago

mikado

asked 2 hours ago

mikadomikado

6,6021929

$endgroup$

• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  Exp[Mean[Log[{-4, -4}]]] yields -4. The definition stated in the documentation doesn't seem to be the one used for numeric input.
  $endgroup$
  – Coolwater
  2 hours ago
  
  
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  @Coolwater, but note that FullSimplify[Exp[Mean[Log[#]]] == GeometricMean[#]] &@{-4, -5} returns False, so I don't think your explanation generalises.
  $endgroup$
  – mikado
  2 hours ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  "The geometric mean applies only to positive numbers." (Wiki (Times @@ #)^(1/Length@#) == Exp@Mean@Log@# &@ RandomReal[10, 100] evaluates to True
  $endgroup$
  – Bob Hanlon
  2 hours ago
  

  
  
  
  

add a comment | 

3

$begingroup$

According to the documentation for
GeometricMean

GeometricMean[Table[x[i],{i,1,n}]]==Product[x[i],{i,1,n}]^(1/n)

Presumably this is correct for x[i] positive real.

However, GeometricMean returns answers for some negative and complex inputs that are not consistent with this definition.

For example

GeometricMean[{-4, -4}]

(* -4 *)

(Perhaps it simply recognises a constant list as a special case, and shortcuts the definition to give an incorrect answer?)

functions

share|improve this question

edited 2 hours ago

mikado

asked 2 hours ago

mikadomikado

6,6021929

$endgroup$

• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  Exp[Mean[Log[{-4, -4}]]] yields -4. The definition stated in the documentation doesn't seem to be the one used for numeric input.
  $endgroup$
  – Coolwater
  2 hours ago
  
  
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  @Coolwater, but note that FullSimplify[Exp[Mean[Log[#]]] == GeometricMean[#]] &@{-4, -5} returns False, so I don't think your explanation generalises.
  $endgroup$
  – mikado
  2 hours ago
  

  
  
  
  


• 
  
  
  

  
  

  
  
  
  
  
  

  
  $begingroup$
  "The geometric mean applies only to positive numbers." (Wiki (Times @@ #)^(1/Length@#) == Exp@Mean@Log@# &@ RandomReal[10, 100] evaluates to True
  $endgroup$
  – Bob Hanlon
  2 hours ago
  

  
  
  
  

add a comment | 

$begingroup$

According to the documentation for
GeometricMean

GeometricMean[Table[x[i],{i,1,n}]]==Product[x[i],{i,1,n}]^(1/n)

Presumably this is correct for x[i] positive real.

However, GeometricMean returns answers for some negative and complex inputs that are not consistent with this definition.

For example

GeometricMean[{-4, -4}]

(* -4 *)

(Perhaps it simply recognises a constant list as a special case, and shortcuts the definition to give an incorrect answer?)

functions

share|improve this question

edited 2 hours ago

mikado

asked 2 hours ago

mikadomikado

6,6021929

$endgroup$

GeometricMean[Table[x[i],{i,1,n}]]==Product[x[i],{i,1,n}]^(1/n)

GeometricMean[{-4, -4}]

(* -4 *)

share|improve this question

edited 2 hours ago

mikado

asked 2 hours ago

mikadomikado

6,6021929

share|improve this question

edited 2 hours ago

mikado

asked 2 hours ago

mikadomikado

6,6021929

asked 2 hours ago

mikadomikado

6,6021929

asked 2 hours ago

mikadomikado

6,6021929

1 Answer
1

active

oldest

votes

4

$begingroup$

Similar to many other means, the geometric mean is homogenous. This means that

GeometricMean[ c data ] == c GeometricMean[ data ]

should be true for any number c. However, the problem is that $n$th roots are multi-valued in general and this causes no end of confusion. This is usually no problem for positive reals, but for negative reals it can be confusing. Do you want odd roots of negative reals be negative? Sometimes yes and sometimes no. For example, in version 10.2 the result of your example is $4$. Thus, the behavior has changed somewhat over time and there is no way to satisfy all expectations. The documentation for GeometricMean[] should be more clear in this regard.

share|improve this answer

edited 50 mins ago

answered 2 hours ago

SomosSomos

1,32519

$endgroup$

add a comment | 

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4

$begingroup$

Similar to many other means, the geometric mean is homogenous. This means that

GeometricMean[ c data ] == c GeometricMean[ data ]

should be true for any number c. However, the problem is that $n$th roots are multi-valued in general and this causes no end of confusion. This is usually no problem for positive reals, but for negative reals it can be confusing. Do you want odd roots of negative reals be negative? Sometimes yes and sometimes no. For example, in version 10.2 the result of your example is $4$. Thus, the behavior has changed somewhat over time and there is no way to satisfy all expectations. The documentation for GeometricMean[] should be more clear in this regard.

share|improve this answer

edited 50 mins ago

answered 2 hours ago

SomosSomos

1,32519

$endgroup$

add a comment | 

4

$begingroup$

Similar to many other means, the geometric mean is homogenous. This means that

GeometricMean[ c data ] == c GeometricMean[ data ]

should be true for any number c. However, the problem is that $n$th roots are multi-valued in general and this causes no end of confusion. This is usually no problem for positive reals, but for negative reals it can be confusing. Do you want odd roots of negative reals be negative? Sometimes yes and sometimes no. For example, in version 10.2 the result of your example is $4$. Thus, the behavior has changed somewhat over time and there is no way to satisfy all expectations. The documentation for GeometricMean[] should be more clear in this regard.

share|improve this answer

edited 50 mins ago

answered 2 hours ago

SomosSomos

1,32519

$endgroup$

add a comment | 

$begingroup$

Similar to many other means, the geometric mean is homogenous. This means that

GeometricMean[ c data ] == c GeometricMean[ data ]

should be true for any number c. However, the problem is that $n$th roots are multi-valued in general and this causes no end of confusion. This is usually no problem for positive reals, but for negative reals it can be confusing. Do you want odd roots of negative reals be negative? Sometimes yes and sometimes no. For example, in version 10.2 the result of your example is $4$. Thus, the behavior has changed somewhat over time and there is no way to satisfy all expectations. The documentation for GeometricMean[] should be more clear in this regard.

share|improve this answer

edited 50 mins ago

answered 2 hours ago

SomosSomos

1,32519

$endgroup$

GeometricMean[ c data ] == c GeometricMean[ data ]

share|improve this answer

edited 50 mins ago

answered 2 hours ago

SomosSomos

1,32519

answered 2 hours ago

SomosSomos

1,32519

answered 2 hours ago

SomosSomos

1,32519