Note Taking Guide –Episode 1401 PHYSICSFundamentals Law of ...
Note Taking Guide –Episode 1401 PHYSICSFundamentals Law of ...
Note Taking Guide –Episode 1401 PHYSICSFundamentals Law of ...
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<strong>Note</strong> <strong>Taking</strong> <strong>Guide</strong> <strong>–Episode</strong> <strong>1401</strong><br />
<strong>Law</strong> <strong>of</strong> Reflection:<br />
Diffuse reflection-<br />
Regular reflection-<br />
Plane Mirror Images:<br />
are ____________ images -<br />
appear<br />
are<br />
are<br />
reverse<br />
uses for plane mirrors:<br />
Curved (or Spherical) Mirrors:<br />
_____________<br />
Mirror<br />
______________<br />
Mirror<br />
<strong>PHYSICSFundamentals</strong><br />
© 2004, GPB<br />
14-02
<strong>Note</strong> <strong>Taking</strong> <strong>Guide</strong> <strong>–Episode</strong> <strong>1401</strong><br />
Parts <strong>of</strong> a Spherical Mirror<br />
C: _____________ <strong>of</strong> curvature (center <strong>of</strong> sphere <strong>of</strong> which mirror is a part)<br />
V: _____________ <strong>of</strong> mirror (center <strong>of</strong> mirror itself)<br />
F: _____________ point (Parallel rays reflected from mirror converge at this<br />
point.)<br />
P: _____________ axis (goes through ____ and ____ )<br />
r: _____________ <strong>of</strong> curvature (distance from ____ to ____ ) (r = ____)<br />
f: _____________ length (distance from ____ to ____ )<br />
real image –<br />
formed<br />
can be<br />
<br />
<strong>PHYSICSFundamentals</strong><br />
© 2004, GPB<br />
14-03
<strong>Note</strong> <strong>Taking</strong> <strong>Guide</strong> <strong>–Episode</strong> <strong>1401</strong><br />
Rules for Ray Diagrams:<br />
incident rays<br />
are reflected<br />
1<br />
2<br />
3<br />
Ex #1<br />
Image is located<br />
between ____ and<br />
____.<br />
C<br />
F<br />
It is (real, virtual),<br />
(erect, inverted)<br />
and (reduced,<br />
enlarged, same<br />
size as object).<br />
Ex #2<br />
Image is located<br />
________ mirror.<br />
C<br />
F<br />
It is (real, virtual),<br />
(erect, inverted)<br />
and (reduced,<br />
enlarged, same<br />
size as object).<br />
Problem Set #1 (on back).<br />
uses <strong>of</strong> concave mirrors:<br />
<strong>PHYSICSFundamentals</strong><br />
© 2004, GPB<br />
14-04