Given:

Focal length of the convex lens, f₁ = 30 cm
Focal length of the concave lens, f₂ = −20 cm
Distance between the two lenses, d = 8.0 cm
Height of the image, h1 = 1.5 cm
Object distance from the side of the convex lens, u1 = -40 cm
|u1| = 40cm

According to the lens formula:

…(1)

Where,
u₁ = Object distance
v₁ = Image distance

f₁ = Focal length of convex lens.

By putting the values in equation (1), we get,

By solving the above equation we get,

v₁ = 120 cm
Magnification, m = |v₁|/|u₁| = 120/40 = 3
Hence, the magnification due to the convex lens is 3.
The image formed by the convex lens acts as an object for the concave lens.

According to the lens formula:

…(2)

Where,
u₂ = Object distance

U₂ = + (120 − 8) = 112 cm.
v₂ = Image distance

f₂ = Focal length of convex lens.

By putting the values in equation (2), we get,

By solving the above equation, we get,

v_{2 =} -2240/92

magnification, m’ = |v₂/u₂| = 2240/92 × 1/112 = 20/92

Hence, the magnification due to the concave lens is 2092.
The magnification produced by the combination of the two lenses is calculated as:

M = m × m^’ = 0.652
The magnification of the combination is given as:

h₂/h₁ = 0.652

h₂ = h₁ × 0.652
Where,
h₁ = Object size = 1.5 cm
h₂ = Size of the image
Therefore h₂ = 0.652 × 1.5 = 0.98cm

Hence, the height of the image is 0.98 cm.