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I'm having a really hard time understanding how to figure out if a mapping is linear or not. Here is my homework question:

Determine which of the following mappings F are linear.

(a) $F: \mathbb{R}^3 \to \mathbb{R}^2$ defined by $F(x,y,z) = (x, z)$

(b) $F: \mathbb{R}^4 \to \mathbb{R}^4$ defined by $F(X) = -X$

(c) $F: \mathbb{R}^3 \to \mathbb{R}^3$ defined by $F(X) = X + (0, -1, 0)$

Sorry about my formatting. I'm not sure how to write exponents and the arrow showing that the mapping is from R^n to R^m. Any help is greatly appreciated!!

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    Have you tried plugging in the definition of "linear"?2011-02-11

2 Answers 2

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To check if a mapping is linear in general, all you need is verify the two properties.

  1. $f(x+y) = f(x) + f(y)$
  2. $f(\alpha x) = \alpha f(x)$

The above two can be combined into one property: $f(\alpha x + \beta y) = \alpha f(x) + \beta f(y)$

Edit

For instance, if we want to show say $F(x) = f(x_1,x_2,x_3) = x_1 - 4x_2 + x_3$ is linear, where $x = (x_1,x_2,x_3)$, then all you need to do is as follows.

\begin{align*} F(\alpha x + \beta y) & = f(\alpha x_1 + \beta y_1,\alpha x_2 + \beta y_2,\alpha x_3 + \beta y_3) \\ & = (\alpha x_1 + \beta y_1) - 4(\alpha x_2 + \beta y_2) + (\alpha x_3 + \beta y_3)\\ & = (\alpha x_1 - 4 \alpha x_2 + \alpha x_3) + (\beta y_1 - 4 \beta y_2 + \beta y_3)\\ & = \alpha (x_1 - 4 x_2 + x_3) + \beta (y_1 - 4 y_2 + y_3)\\ & = \alpha f(x_1,x_2,x_3) + \beta f(y_1,y_2,y_3)\\ & = \alpha F(x) + \beta F(y)\\ \end{align*}

Hence the above function is linear.

EDIT

As Arturo points out problem $c$ is not a linear map because of the constant hanging around. Such maps are called affine maps. Affine maps are those for which $f(x) - f(0)$ is a linear map.

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    @Sivaram: Oh, sure; we could redefine linearity to allow affine maps. But you had *already* given the standard definition, and worked out an example; the comment was then that the last function, even though it did not satisfy the given definition, was linear "anyway" because we ignored the nonhomogeneous part. I, for one, would have been rather confused at that...2011-02-12
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1, Yes is a linear mapping, F(ax)=aF(x), F(x+y)=F(x)+F(y)

2, Yes is a linear mapping, F(ax)=aF(x), F(x+y)=-x-y=F(x)+F(y)

3, Not a linear mapping F(0) not equal 0