Complete the color equations below: White – cyan = _ Yellow + Blue - Cyan= Yellow + cyan + Magenta = _____.

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Presentation transcript:

Complete the color equations below: White – cyan = _______________ Yellow + Blue - Cyan= __________________ Yellow + cyan + Magenta = _________________ Yellow + cyan – Magenta = ____________________ Yellow + Cyan – Blue – Red = _____________________

Complete the statements below expressing your understanding of filters and light: A red filter is capable of transmitting ____________ light. A cyan filter will absorb ______ light. When a white object is illuminated with white light viewed through a green filter, the object will appear ________. A blue object is illuminated with white light and viewed through a green filter, the object will appear ________. A cyan object is illuminated with a white light and viewed through a green filter. The object will appear _______.

Complete the statements below expressing your understanding of filters and light: A yellow object is illuminated with yellow light and viewed through a yellow filter. The object will appear ________. A yellow object is illuminated with yellow light and viewed through a blue filter. The object will appear ________. A blue object is illuminated with blue light and viewed through a yellow filter. The object will appear _______. A yellow object is illuminated with green light and viewed through a cyan filter. The object will appear ______. A red object is illuminated with yellow light and viewed through a cyan filter. The object will appear _____.

Complete the statements below expressing your understanding of filters and light: White paper illuminated with Cyan light will appear ______. Blue paper illuminated with red light will appear _____. Red paper illuminated with Magenta light will appear ______. Red paper illuminated with Cyan light will appear ______. Green paper illuminated with Yellow light will appear ____.

If you stand three feet in front of a plane mirror, how far away would you see yourself in the mirror?

A concave mirror forms a real image at 25 cm from the mirror surface along the principal axis. If the object is 10 cm from the mirror, what is the focal length of the mirror?

If a virtual image is formed along the principal axis 10 cm from a concave mirror with a focal length of 15 cm, how far is the object from the mirror?

A man’s face is 30.0 cm in front of a shaving mirror creating an upright image 1.5 times as large as the object. Draw a relatively accurate diagram to match the situation. ( be sure to label the diagram completely.)

Describe the image formed by a plane mirror.

Describe the image formed by a concave mirror when the object is located between the focal point and the center.

Describe the image formed by a convex mirror when the object is located between the “focus” and the mirror.

Trace the diagram below on your paper. Sketch the path the light ray will travel.

Consider the following object in front of a plane mirror. Use a ray diagram to indicate the portion of the mirror needed in order for the “eye” to view the entire image.

If a mirror gives an image of 3.0 meter away when an object is placed 150 cm from it, what is the focal length?

A convex mirror has a focal length of 100 cm. If the object is placed 50 cm in front of the mirror, where is the image located?

What is the frequency and category of an electromagnetic wave with a wavelength of 5.5 µm?

A RED White ( bright) Green

B RED Green Black Green

C Yellow Black Green Black

D Cyan Black Red Black Green

E 6 ft

F 7.1 cm

G 6 cm

H Q = -45 cm f = 90 cm

I Virtual Upright Same size

J Real Inverted enlarged

K Virtual Upright Reduced

L

M

N 100 cm or 1 m

O cm 33.3 cm behind the mirror

P 5.5 x Hz Infrared wave