Mirrors and Lenses O O O O Concave mirror Convex mirror Plane mirror Converging lens Diverging...
The lens shown above is a O bi-convex diverging lens. bi-convex converging lens. bi-concave diverging lens. Obi-concave converging lens. Under the sign convention rules for lenses, a negative focal length means that the lens is planar. converging. bifocal. diverging. An object is placed 30 cm from a converging lens with a focal length of 20 cm. The image will appear right side up 12 cm from the lens on the same side of the lens. right side up 60 cm...
options are: Plane Mirror Concave Mirror Convex Mirror Converging Lens Diverging Lens In the 7 diagrams below, the solid arrow represents the object and the dashed arrow the image. The rectangle shows the position of an SINGLE OPTICAL ELEMENT. Match each diagram with the appropriate optical element. C 11 Submit Answer Tries 0/20
Options are: plane mirror concave mirror convex mirror Converging lens Diverging lens thank you! In the 7 diagrams below, the solid arrow represents the object and the dashed arrow the image. The rectangle shows the position of an SINGLE OPTICAL ELEMENT. Match each diagram with the appropriate optical element. 11 Submit Answer Tries 0/20
Two systems are formed from a converging lens and a diverging lens, as shown in parts a and b of the drawing. (The point labeled "Fconverging" is the focal point of the converging lens.) An object is placed inside the focal point of lens 1 at a distance of 6.4 cm to the left of lens 1. The focal lengths of the converging and diverging lenses are 15.0 and -20.0 cm respectively. The distance between the lenses is 50.0 cm....
A Lens and a Mirror In the figure below a converging lens is located at 0 cm. It has a focal length of f1 = 20.2 cm. An object is placed at a = 25.2 cm to the left from the converging lens. In addition a concave mirror with focal length of f2 = 10.4 cm is located L = 117.21 cm to the right of the lens. 1) Give your final answers in a coordinate system which has its...
A diverging concave lens or a diverging convex mirror may be used as ... (four answers are correct): Reading glasses for far-sighted people Glasses for near-sighted people The lens in an eye Store security mirrors Car side-view mirrors Flashlight or headlight mirrors Elements in optical equipment (e.g. camera, microscope) Make-up or shaving mirrors Telescope mirrors Note: I understand three of the choices would be 1) glasses for nearsighted people, 2) store security mirrors, and 3) car side-view mirrors. What is...
2. Two thin lenses, one a converging lens and the other a diverging lens, are arated by 1.00 m along the same principal axis, as shown in the figure. The magnitude of the focal length of the converging lens is 25 cm, while the magnitude of the focal length of the diverging lens is 40 em. An object 8,25 cm tall is placed 35 cm to the left of the converging lens. (a) Where is the final image produced by...
Solve these problems: 1. f=2 cm, d_o = 1 cm (converging lens and concave mirror) 2. f=2cm, d_o = 3 cm (converging lens and concave mirror) 3. f= -2cm, d_o = 4 cm (diverging lens and convex mirror)
A concave mirror (f1 = 14.4 cm) and a convex mirror (f2 = ?5.80 cm) are facing each other and are separated by a distance of 36.0 cm. An object is placed between the mirrors and is 18 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 concave mirror (f1 = 13.6 cm) and a convex mirror (f2 = −5.90 cm) are facing each other and are separated by a distance of 34.0 cm. An object is placed between the mirrors and is 17 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?.