If you we're at the point (8,-2) and you went 5 units right and 2 units up, you'd be at (13,0).
(2,1)
answer
Here's an example: In the coordinate plane, the point is translated to the point . Under the same translation, the points and are translated to and , respectively. What are the coordinates of and ? Any translation sends a point to a point . For the point in the problem, we have the following. So we have . Solving for and , we get and . So the translation is unit to the right and units up. See Figure 1. We can now find and . They come from the same translation: unit to the right and units up. The three points and their translations are shown in Figure 2.
A concave mirror gives an upside down image at a certain distance called the focal point. As you move closer to the mirror beyond the focal point, the image flips and becomes right side up.
The image will be real, inverted, and magnified when the object is placed between a magnifying lens and its focal point.
A translation of 4 units to the right followed by a dilation of a factor of 2
(z,z+2) or (z+2,z)
The coordinates are (10, 5).
A convex lens can create both real and virtual images. The type of image formed depends on the position of the object relative to the lens and the focal length of the lens. If the object is placed beyond the focal point, a real and inverted image is formed; if the object is placed between the lens and the focal point, a virtual and upright image is formed.
Yes, a convex lens can produce a real inverted image that is reversed from left to right. This occurs when the object is placed beyond the focal point of the lens. The image is formed on the opposite side of the lens from the object.
right-click the image and then press "save image as..."
The image is inverted when it reaches the retina. The brain then interperets the image as right-side-up.