FIS 312- INTRODUCTION TO MICROSCOPY FINAL EXAM
WITH ALL CORRECT & VERIFIED ANSWERS |ALREADY
GRADED A+
1. The distance between the bottom
Working Distance
of the objective lens and the
specimen
2. Double refraction, When a light Birefringence
ray passes through a
specimen and splits into two
3. Increased magnification without Empty Magnification
in- creased resolution
4. What is in focus in one plane is Conjugate Planes
in focus in all
5. the portion of out specimen that is in Depth of field
focus at a given time
6. When light passes through an Refraction
ob- ject and the direction of light
rays is changed
7. How we see color, based on
Absorption
what wavelength is reflected off
of a sur- face
8. Separation of light based upon wave- Dispersion
length
9. When two or more waves interact re- Interference
sulting in an amplitude change
10. Focal points vary across a Astigmatism
11. plane Conical, comet Coma
shaped blur
1/
18
, FIS 312- INTRODUCTION TO MICROSCOPY FINAL EXAM
WITH ALL CORRECT & VERIFIED ANSWERS |ALREADY
GRADED A+
12. Magnification of lens varies Distortion
from center to periphery
13. Cannot focus center and Curvature of field
periphery simultaneously
14. Shortest distance between Resolution
two points that allows for
distinguishing as two discrete
entities
15. In-phase waves, vibrate on the same Constructive Interference
plane, waves reinforce each other
16. Attenuation, out of phase Destructive Interference
waves to- tal amplitude is 0
17. Can help determine a materials bire- Michael-Levy Chart
fringence by utilizing both
specimen thickness and
retardation
18. When light bounces off of an Reflection
object
19. the light bending ability of a medium Refractive index
20. mediums with different RI's can capture diffracted
will cause light to move at rays
different speeds, the higher the
RI is the slow- er the light will
move
21.
the angle in which the objective
2/
18
, FIS 312- INTRODUCTION TO MICROSCOPY FINAL EXAM
WITH ALL CORRECT & VERIFIED ANSWERS |ALREADY
Sn GRADED
Law A+
ell
's
Numerical Aperture
22. Abbe's Theory of imaging
3/
18
WITH ALL CORRECT & VERIFIED ANSWERS |ALREADY
GRADED A+
1. The distance between the bottom
Working Distance
of the objective lens and the
specimen
2. Double refraction, When a light Birefringence
ray passes through a
specimen and splits into two
3. Increased magnification without Empty Magnification
in- creased resolution
4. What is in focus in one plane is Conjugate Planes
in focus in all
5. the portion of out specimen that is in Depth of field
focus at a given time
6. When light passes through an Refraction
ob- ject and the direction of light
rays is changed
7. How we see color, based on
Absorption
what wavelength is reflected off
of a sur- face
8. Separation of light based upon wave- Dispersion
length
9. When two or more waves interact re- Interference
sulting in an amplitude change
10. Focal points vary across a Astigmatism
11. plane Conical, comet Coma
shaped blur
1/
18
, FIS 312- INTRODUCTION TO MICROSCOPY FINAL EXAM
WITH ALL CORRECT & VERIFIED ANSWERS |ALREADY
GRADED A+
12. Magnification of lens varies Distortion
from center to periphery
13. Cannot focus center and Curvature of field
periphery simultaneously
14. Shortest distance between Resolution
two points that allows for
distinguishing as two discrete
entities
15. In-phase waves, vibrate on the same Constructive Interference
plane, waves reinforce each other
16. Attenuation, out of phase Destructive Interference
waves to- tal amplitude is 0
17. Can help determine a materials bire- Michael-Levy Chart
fringence by utilizing both
specimen thickness and
retardation
18. When light bounces off of an Reflection
object
19. the light bending ability of a medium Refractive index
20. mediums with different RI's can capture diffracted
will cause light to move at rays
different speeds, the higher the
RI is the slow- er the light will
move
21.
the angle in which the objective
2/
18
, FIS 312- INTRODUCTION TO MICROSCOPY FINAL EXAM
WITH ALL CORRECT & VERIFIED ANSWERS |ALREADY
Sn GRADED
Law A+
ell
's
Numerical Aperture
22. Abbe's Theory of imaging
3/
18
