Answer to Question #261509 in Optics for Nbj

Question #261509

Q 2. In a compound microscope, the focal length of the objective lens is 5 cm. 1 mm tall

object is placed 7 cm in front of the objective lens and the eyepiece is focused so that an

inverted image is formed 8 cm in front of the objective lens. The distance between the

objective lens and the eyepiece is 30 cm.

(Hint: Draw a rough diagram and indicate the length measurements as described above)

(a) Determine the focal length of the eyepiece

(b) What it the total magnification of the image

Expert's answer

"{Focal\\,length\\,of\\,the\\,objective\\,lens\\,f_1 = 5.1cm}\\\\\n{Focal\\,length\\,of\\,the\\,eyepiece\\,lens\\,f_2}\\\\\n{object\\,distance\\,of\\,the\\,objective\\,lens\\,u_1 = 7.0cm}\\\\\n{object\\,distance\\,of\\,the\\,eyepiece\\,lens\\,u_2}\\\\\n{image\\,distance\\,of\\,the\\,objective\\,lens\\,v_1 }\\\\\n{image\\,distance\\,of\\,the\\,eyepiece\\,lens\\,v_2 = 38.0cm}\\\\\n{The\\,distance\\,between\\,the\\,eyepiece\\,and\\,objective\\,d = 30.0cm}\\\\\n{Q2\\,(a)}\\\\\n{According\\,to\\,the\\,lens\\,formula}\\\\\n\\frac{1}{f_1} = \\frac{1}{v_1}-\\frac{1}{u_1}\\\\\n\\frac{1}{5.1} = \\frac{1}{v_1}-\\frac{1}{7.0}\\\\\n\\frac{1}{v_1} = \\frac{1}{5.1}-\\frac{1}{7.0}\\\\\n\\frac{1}{v_1} = \\frac{121}{357}\\\\\n{v_1}={2.95cm}\\\\\n\\\\\n{object\\,distance\\,of\\,the\\,eyepiece\\,lens\\,u_2}\\\\\n{u_2 = v_1-d}\\\\\n{u_2 = 2.95-30}\\\\\n{u_2 = -27.1cm}\\\\\\\\\n{According\\,to\\,the\\,lens\\,formula}\\\\\n\\frac{1}{f_2} = \\frac{1}{v_2}-\\frac{1}{u_2}\\\\\n\\frac{1}{f_2} = \\frac{1}{-38}-\\frac{1}{-27.1}\\\\\n\\frac{1}{f_2} = \\frac{109}{10298}\\\\\n{f_2} = {94.5cm}\\\\\n{2}{b}\\\\\n{m = \\frac{v_1}{u_1}{(1+\\frac{d'}{f_2})}}\\\\\n{m = \\frac{3.0}{7.0}{(1+\\frac{38}{94.5})}}\\\\\n{m = {\\times0.6}}"

Learn more about our help with Assignments: Optics

Comments

No comments. Be the first!

Answer to Question #261509 in Optics for Nbj

Comments

Leave a comment

Related Questions