The answer is 15 millimeters behind the mirror, and the distance from the actual object to the image is 30 millimeters. Plane mirrors have a flat focus that places the image as far behind the mirror as you are in front of it.
15 millimeters.
hi/ho = di/do di = dohi/ho di = (51mm)(3.5mm)/(13mm) di = 14mm * rounded to 2 significant figures The image would be 14mm in front of the lens.
40cm
Plane Mirror And Other Spherical Mirrors Bulged Outside, Such As Convex Mirrors
A virtual erect image of the same size of the object is formed.
30 millimeters
30 millimeters
15 millimeters.
5.0 millimeters
c. 8 millimeters
13.7 millimeters
The Correct Answer would be 8 millimeters.8 millimeters
13.7 millimeters
The distance between the object and mirror is 15 mm. The distance between the image and mirror is 15 mm. Therefore, the distance between the image and object is 15 mm plus 15 mm which equals 30 mm.
Using the magnification equation m = - v / u. The image should be 13.73 mm in front of the lens
7
hi/ho = di/do di = dohi/ho di = (51mm)(3.5mm)/(13mm) di = 14mm * rounded to 2 significant figures The image would be 14mm in front of the lens.