91影视

The object stands on the common central axis of two thin symmetric lenses.

Distance between object and lens 1,$p_1=+4\text{cm}$

Distance between lenses 1 and 2,$d=8\text{cm}$

Lens 1 converging, focal length$f_1=6\text{cm}$

Lens 2 diverging, focal length$f_2=6\text{cm}$

Using the relation between focal length, image distance and object distance find the image distance $i_2$. Then using the formula for overall magnification find its value.

From the solution of part a and b answer part c, d and e.

Formula are as follows:

The formula for focal length,$\frac{1}{f}=\frac{1}{p}+\frac{1}{i}$

Overall magnification,$M=m_1{m}_2$

Magnification,$m=-\frac{i}{p}$

Where,$m$is the magnification, $p$is the pole,$f$is the focal length, and$i$is the image distance.

(a)

For lens 1, focal length $f_1$, object distance $p_1$

Using the expression for focal length,

$$\begin{gathered} \frac{1}{f_1}=\frac{1}{p_1}+\frac{1}{i_1} \\ \frac{1}{i_1}=\frac{1}{f_1}-\frac{1}{p_1} \end{gathered}$$

$\begin{array}{rcl}\frac{1}{i_1}& =& \frac{p_1-f_1}{f_1{p}_1}\\ i_1& =& \frac{f_1{p}_1}{p_1-f_1}\end{array}$

$i_1=\frac{f_1{p}_1}{p_1-f_1}鈥�鈥�鈥�鈥�鈥�鈥�..\left(1\right)$

$\begin{array}{rcl}{i}_1& =& \frac{6脳4}{4-6}\\ i_1& =& -12\text{cm}\end{array}$

This serves as an object for lens 2 which is diverging, $鈭�p_2=d-i_1=8-\left(-12\right)=20\text{cm}$and it is given that$f_2=-6\text{cm}$

Modifying equation 1 for lens 2,

$$\begin{gathered} i_2=\frac{f_2{p}_2}{p_2-f_2} \\ {i}_2=\frac{-6脳20}{20-\left(-6\right)} \\ {i}_2=-4.6\text{cm} \end{gathered}$$

Therefore, the image produced by lens 2 is at$-4.6cm$

(b)

To find overall magnification use the formula,

$M=m_1{m}_2$

Magnification $m=-\frac{i}{p}$

$\begin{array}{rcl}鈭�M& =& -\frac{i_1}{p_1}脳-\frac{i_2}{p_2}\\ M& =& -\frac{\left(-12\right)}{4}脳-\frac{-4.6}{20}\\ M& =& +0.69\end{array}$

Therefore, the overall magnification for the given lens system is$+0.69$ .

(c)

Since the lens 2 is diverging, the object for lens 2 is inside the focal point. The final image distance is negative.

Hence, the image formed by this lens system is virtual.

(d)

Overall magnification for this lens system is the positive which shows that the image and the object have the same orientation.

Hence, the image is not inverted.

(e)

The final image distance is negative, which is on the same side of the object relative to lens 2, which is diverging.

Hence, the image is diverging.

The focal length and overall magnification of the two-lens system can be found using corresponding formulae. The nature of the image can be predicted from the characteristics of the image formed due to the given two-lens system.