Solve these problems: 1. f=2 cm, d_o = 1 cm (converging lens and concave mirror) 2....
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)
Homework Answers
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Solve these problems:
1. f=2 cm, d_o = 1 cm (converging lens and concave mirror)
2....
options are: Plane Mirror Concave Mirror Convex Mirror Converging Lens Diverging Lens In the 7 diagrams...
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...
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
UPTICAL CLCMCIT. Mdluli edi uldyr dill WILIT lile appropriate Uplical element. A: Plane Mirror B: Concave...
UPTICAL CLCMCIT. Mdluli edi uldyr dill WILIT lile appropriate Uplical element. A: Plane Mirror B: Concave Mirror C: Convex Mirror OD: Converging Lens OE: Diverging Lens A: Plane Mirror B: Concave Mirror C: Convex MirrorD: Converging Lens E: Diverging Lens A: Plane Mirror B: Concave Mirror C: Convex Mirror OD: Converging Lens OE: Diverging Lens A: Plane Mirror B: Concave Mirror C: Convex Mirror OD: Converging Lens E: Diverging Lens CA: Plane MirrorB: Concave Mirror C: Convex MirrorD: Converging Lens...
Mirrors and Lenses O O O O Concave mirror Convex mirror Plane mirror Converging lens Diverging...
Mirrors and Lenses O O O O Concave mirror Convex mirror Plane mirror Converging lens Diverging lens Focal length (cm): Object distance, x (cm): Object height (cm): Image distance, x' (cm): Image height (cm): 40.0 200.0 50.0 50.0 -12.5 Concept Questions Notes Audio Intro Oo © Question 6 Concept Simulation 25.2 illustrates the concepts pertinent to this problem. A 2.10-cm-high object is situated 13.4 cm in front of a concave mirror that has a radius of curvature of 12.1 cm....
1) A converging lens (f1 = 10.9 cm) is located 31.2 cm to the left of...
1) A converging lens (f1 = 10.9 cm) is located 31.2 cm to the left of a diverging lens (f2 = -6.18 cm). A postage stamp is placed 32.4 cm to the left of the converging lens. Find the overall magnification. 2) An object is placed in front of a convex mirror, and the size of the image is one-fourth that of the object. What is the ratio (do/f) of the object distance to the focal length of the mirror?
The lens shown above is a O bi-convex diverging lens. bi-convex converging lens. bi-concave diverging lens....
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...
One side of a lens is concave with radius of curvature 30 cm. The other side...
One side of a lens is concave with radius of curvature 30 cm. The other side is convex with radius of curvature 60 cm. The index of refraction of the lens is 1.6. What is the focal length of the lens? Group of answer choices 100 cm, converging 100 cm, diverging 33 cm, converging 33 cm, diverging
A Lens and a Mirror In the figure below a converging lens is located at 0...
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...
Could you explain how to figure out what lens or mirror is used from these two...
Could you explain how to figure out what lens or mirror is
used from these two principal rays?
5. A mirror or lens is placed at the location of the gray box. The solid black indicates the optical axis. The dashed vertical line is the location of the optical device. Each box represents 1.00 cm. Two principal rays from the tip of the object are shown. → a. Which type of optical device is used here? i. Concave mirror ii....
An object is placed 20 cm from a converging lens with focal length 15 cm. A concave mirror with...
An object is placed 20 cm from a converging lens with focal length 15 cm. A concave mirror with focal length 10 cm is located 75 cm to the right of the lens asshown in the figure. Note: The figure is not drawn to scale. A)Determine the location of the final image.B)If the height of the object is 1.0 cm, what is the height of the image?thanks!
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
UPTICAL CLCMCIT. Mdluli edi uldyr dill WILIT lile appropriate Uplical element. A: Plane Mirror B: Concave Mirror C: Convex Mirror OD: Converging Lens OE: Diverging Lens A: Plane Mirror B: Concave Mirror C: Convex MirrorD: Converging Lens E: Diverging Lens A: Plane Mirror B: Concave Mirror C: Convex Mirror OD: Converging Lens OE: Diverging Lens A: Plane Mirror B: Concave Mirror C: Convex Mirror OD: Converging Lens E: Diverging Lens CA: Plane MirrorB: Concave Mirror C: Convex MirrorD: Converging Lens...
Mirrors and Lenses O O O O Concave mirror Convex mirror Plane mirror Converging lens Diverging lens Focal length (cm): Object distance, x (cm): Object height (cm): Image distance, x' (cm): Image height (cm): 40.0 200.0 50.0 50.0 -12.5 Concept Questions Notes Audio Intro Oo © Question 6 Concept Simulation 25.2 illustrates the concepts pertinent to this problem. A 2.10-cm-high object is situated 13.4 cm in front of a concave mirror that has a radius of curvature of 12.1 cm....
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...
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...
Could you explain how to figure out what lens or mirror is
used from these two principal rays?
5. A mirror or lens is placed at the location of the gray box. The solid black indicates the optical axis. The dashed vertical line is the location of the optical device. Each box represents 1.00 cm. Two principal rays from the tip of the object are shown. → a. Which type of optical device is used here? i. Concave mirror ii....
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