Convex lens+ convex mirror d0=40cm, f1=30cm, R=40cm, f2=20cm Find each di and M

Two convex lenses (f1=20 cm and f2=30 cm) and a convex mirror (R=80 cm) are placed...

Two convex lenses (f1=20 cm and f2=30 cm) and a convex mirror (R=80 cm) are placed 1m apart from each other and an object is placed 30 cm in front of the first convex lens (f1=20 cm). Find the distance between the object and final image and its total magnification.

A concave mirror (f1 = 13.6 cm) and a convex mirror (f2 = ?5.50 cm) are...

A concave mirror (f1 = 13.6 cm) and a convex mirror (f2 = ?5.50 cm) are facing each other and are separated by a distance of 35.8 cm. An object is placed between the mirrors and is 17.9 cm from each mirror. Consider the light from the object that reflects first from the concave mirror and then from the convex mirror. What is the distance of the image (di2) produced by the convex mirror?.

A convex mirror (f1 = −5.50 cm) and a concave mirror (f2 = 7.90 cm) are...

A convex mirror (f1 = −5.50 cm) and a concave mirror (f2 = 7.90 cm) are facing each other and are separated by a distance of 17.5 cm. An object is placed between the mirrors and is 8.8 cm from each mirror. Consider the light from the object that reflects first from the convex mirror and then from the concave mirror. What is the distance of the image (di2) produced by the concave mirror? cm

Using Kirchhoff's rules, find the following. (e m f1 = 70.2 V, e m f2 =...

Using Kirchhoff's rules, find the following. (e m f1 = 70.2 V, e m f2 = 60.8 V, and e m f3 = 78.8 V.) (a) the current in each resistor shown in the figure above IR1 = mA IR2 = mA IR3 = mA (b) the potential difference between points c and f magnitude of potential difference V point at higher potential c

1) A plano-convex lens having a radius of curvature of r = 2.20 m is placed...

1) A plano-convex lens having a radius of curvature of r = 2.20 m is placed on a concave glass surface whose radius of curvature is R = 13.0 m as shown in the figure below. Assuming 515-nm light is incident normal to the flat surface of the lens, determine the radius of the 100th bright ring. cm 2) Light of wavelength 589.0 nm illuminates a slit of width 0.80 mm. (a) At what distance from the slit should a...

Find the solution of each of the following initial-value problems. x'=y+f1(t), x(0)=0 y'=-x+f2(t), y(0)=0

Find the solution of each of the following initial-value problems. x'=y+f1(t), x(0)=0 y'=-x+f2(t), y(0)=0