true.
The answer is in the question! The orientation is the same as the preimage! Same = Not different.
The three types of dilations are an enlarged image (the image is larger than the preimage), a reduced image (the image is smaller than the preimage) and an equal image (the image is the same size as the preimage).
A translation of shape on the coordinated grid moves it in the same distance and in the same direction
A translation
False
Because the image is not the same size as the preimage. To do a dilation all you do is make the image smaller or larger than it was before.
Well, honey, when we talk about the orientation of an image compared to the preimage, we're looking at whether the image is flipped, turned, or stayed the same. If the image is flipped, we call it a reflection; if it's turned, we call it a rotation. And if it stayed the same, well, that's just boring old identity. So, in a nutshell, the orientation can change through reflection or rotation, or it can stay the same.
Transformations that preserve the orientation of the image relative to the preimage include translations, rotations, and dilations. These transformations maintain the order of points and the overall direction of the figure. In contrast, reflections and certain types of glide reflections change the orientation, resulting in a mirror image. Therefore, only translations, rotations, and dilations keep the same orientation as the original figure.
Characteristics of an image formed by the plane mirror are :- * Virtual and erect (up right ) . * The image is of same size as that of the object . *The image is far behind the mirror as the object is in front of it . *The image is laterally inverted .
The image of an object in a plane mirror is the same size as the actual object. It is a virtual image that appears to be the same distance behind the mirror as the actual object is in front of it.
A flat mirror produces a virtual image that is upright, the same size as the object, and with the same orientation as the object. The image appears to be located behind the mirror at the same distance as the object is in front of the mirror.
The image in a plane mirror is laterally inverted, meaning left and right are flipped, but not top and bottom. The image appears to be the same distance behind the mirror as the object is in front of it. It is the same size as the object but not the same orientation.