True
the center of the figure at the origin
To translate a figure in a coordinate plane, you add specific values to the x-coordinates and y-coordinates of each point of the figure. For example, if you want to translate a figure 3 units to the right and 2 units up, you would add 3 to each x-coordinate and 2 to each y-coordinate. The result will be the new coordinates of the translated figure, maintaining its shape and orientation.
To reflect a figure across the x-axis, you take each point of the figure and change its y-coordinate to its negative value while keeping the x-coordinate the same. For example, if a point is located at (x, y), its reflection across the x-axis will be at (x, -y). This process effectively flips the figure over the x-axis, creating a mirror image.
Of the 4 transformations it is an enlargement plotted on the Cartesian plane
Draw it on your mom
True
Cartesian coordinate system
Descartes worked on the idea for the Cartesian coordinate system over the course of many years. His writings, including "Geometry", which was published in 1637, outlined the idea of the Cartesian coordinate system.
spongebob
the center of the figure at the origin
if a figure is shifted 3 units to the right, you add to the coordinate
Of the 4 transformations it is an enlargement plotted on the Cartesian plane
Draw it on your mom
a force
When the coordinates of a figure are added, the figure is translated or shifted in the coordinate plane. For example, if you add a constant value to each coordinate of the figure's points, it moves uniformly in the direction of that value. This transformation does not change the shape, size, or orientation of the figure; it simply relocates it to a different position.
It is a translation on the Cartesian plane
I dont no you better