Answer:
c) True. between 0.5 m and 0.8 m .
Explanation:
Optics problems with mirrors should be used the equation of the constructor and magnification
1 / f = 1 / p + 1 / q
M = h ’/ h = - q / p
Where f is the focal length, p the distance to the object and the distance to the image
In this equation we have two regime
For p> f the image is real, inverted,
For p> f the image is virtual and right
Let's apply these equations
Case 1
The distance to the object p = 1.2 m
.h ’is inverted and q is positive
In this case the builder's equation when the image is in front of the mirror the distance to the object is greater than the focal and inverted, so the focal length is less than 1.2 m
Case 2
The distance to the object p = 0.8 m
Case 3
Object p = 0.5 m
.h ’right
. behind the mirror
Let us examine in this case the object must have a distance less than the focal length and the image is right, therefore, the focal length is greater than 0.5 m
Case 2
The distance to the object p = 0.8 m
Let us examine case 2, in this case the distance to the object must be close to the focal point so that the image is formed near infinity, which focal length is about 0.8 m
If we collect the results of these analyzes the focal greater than 0.5 m and less than 0.8 m
The correct answer is c)
