Let $K$ is a horizontal shear, next draw a vector $\vec{x}=\left[\begin{array}{l}x_1 \\ x_2\end{array}\right]$ on the side How find a formula for the sheared vector $K(\vec{x})$. Draw analogously figure for horizontal shear like for vertical shear.
Let $K$ is a horizontal shear, next draw a vector $\vec{x}=\left[\begin{array}{l}x_1 \\ x_2\end{array}\right]$ on the side How find a formula for the sheared vector $K(\vec{x})$. Draw analogously figure for horizontal shear like for vertical shear.
Let $K$ is a horizontal shear, next draw a vector $\vec{x}=\left[\begin{array}{l}x_1 \\ x_2\end{array}\right]$ on the side How find a formula for the sheared vector $K(\vec{x})$. Draw analogously figure for horizontal shear like for vertical shear.
Let $K$ is a horizontal shear, next draw a vector $\vec{x}=\left[\begin{array}{l}x_1 \\ x_2\end{array}\right]$ on the side How find a formula for the sheared vector $K(\vec{x})$. Draw analogously figure for horizontal shear like for vertical shear.
Transcribed Image Text:for vertical shear have
X1
TO-(C)-LA-B-;
kx₁ +
=
=
X1
X2
=
T(x)
A - A
T
kx₁
x1
X1
Slope k
x.
Quantities that have magnitude and direction but not position. Some examples of vectors are velocity, displacement, acceleration, and force. They are sometimes called Euclidean or spatial vectors.
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