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Relation between focal length and redius of curvature
The focal length (f) of a lens is the distance between the center of the lens and the point at which the reflected light, of a beam of light travelling parallel to the center line, meets the center line (principal axis). The radius of curvature (r) is the radius of the lens that forms a complete sphere.
Determination of focal length of concave miror by single pin method
- Determine the approximate focal length of the given concave mirror by obtaining on the wall the image of a distant tree.
- Mount the given concave mirror on a stand and fix one pin on the other stand, then place them on the optical bench as shown in the diagram.
- Now keep the object needle O in front of the mirror M and beyond C. Take a second needle I and place it in between the mirror and the object needle. Move the is needle I, until there is no parallax between the image of O and I on moving the eye from side to side. Measure the distance MO ( u ). Also measure the distance MI ( v ). This gives the observed object and image distance.
- Very the position of the object bringing it progressively closer to the mirror taking care to see that a real image is obtained in each case. This will be so if object is at a distance greater than the focal length from the mirror. Repeat the above mentioned procedure to find the value of MO and MI in each case. Take atleast six observations in this manner.
- Plot a graph v vs u. this will be curve. Draw a line OP making an angle of 45o . with either axis and meeting the curve at point P.
Relation between u-v-f