Telescopes By Mr. King. Tube Stand Tube Stand eyepiece.
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Transcript of Telescopes By Mr. King. Tube Stand Tube Stand eyepiece.
Telescopes
By Mr. King
Tube
Tube
Stand
Tube
Stand
eyepiece
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Stand
eyepieceObjective
lens
Tube
Stand
eyepieceObjective
lens
Tube
Stand
eyepiece
Objective
lens
Tube
Standeyepiece
Objective
lens
Tube
Standeyepiece
Objective
lens
Tube
Standeyepiece
Objective
lens
Tube
Standeyepiece
Objective
lens
Tube
Standeyepiece
Objective
lens
Tube
Stand
eyepiece
Objective
lens
1. Light rays enter the objective lens. The rays are parallel.
Tube
Stand
eyepiece
Objective
lens
2. The light rays are bent by the objective lens. They travel through the tube.
Tube
Stand
eyepiece
Objective
lens
2. The light rays are bent by the objective lens. They travel through the tube.
Tube
Stand
eyepiece
Objective
lens
2. The light rays are bent by the objective lens. They travel through the tube.
Tube
Stand
eyepiece
Objective
lens
2. The light rays are bent by the objective lens. They travel through the tube.
Tube
Stand
eyepiece
Objective
lens
2. The light rays are bent by the objective lens. They travel through the tube.
Tube
Stand
eyepiece
Objective
lens
3. The light rays cross all together at the focal point.
Tube
Stand
eyepiece
Objective
lens
3. The light rays cross all together at the focal point.
Focal Point
Tube
Stand
eyepiece
Objective
lens
4. They then are inverted or upside down.
Focal Point
Tube
Stand
eyepiece
Objective
lens
5. The light then travels to the eyepiece where the rays are bent back and condensed. The person can look and see the stars.
Focal Point
Tube
Stand
eyepiece
Objective
lens
5. The light then travels to the eyepiece where the rays are bent back and condensed. The person can look and see the stars.
Focal Point
Tube
Stand
eyepiece
Objective
lens
5. The light then travels to the eyepiece where the rays are bent back and condensed. The person can look and see the stars.
Focal Point
Tube
Stand
eyepiece
Objective
lens
5. The light then travels to the eyepiece where the rays are bent back and condensed. The person can look and see the stars.
Focal Point
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
StandEyepiece lens
Objective
lens
Tube
StandEyepiece lens
Objective
lens
Tube
StandEyepiece lens
Objective
lens
Tube
StandEyepiece lens
Objective
lens
Tube
StandEyepiece lens
Objective
lens
Tube
StandEyepiece lens
Objective
lens
Tube
StandEyepiece lens
Objective
lens
Tube
StandEyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
Tube
Stand
Eyepiece lens
Objective
lens
1. Light rays enter the opening of the tube. The rays are parallel.
Tube
Stand
Eyepiece lens
Objective
lens
1. Light rays enter the opening of the tube. The rays are parallel.
Tube
Stand
Eyepiece lens
Objective
lens
1. Light rays enter the opening of the tube. The rays are parallel.
Tube
Stand
Eyepiece lens
Objective
lens
2. The rays are reflected off a curved mirror or the objective lens.
Tube
Stand
Eyepiece lens
Objective
lens
3. They are then reflected off a flat mirror to the eye piece.
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Eyepiece lens
Objective
lens
3. They are then reflected off a flat mirror to the eye piece.
Tube
Stand
Eyepiece lens
Objective
lens
3. They are then reflected off a flat mirror to the eye piece.
Tube
Stand
Eyepiece lens
Objective
lens
3. They are then reflected off a flat mirror to the eye piece.
Tube
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Eyepiece lens
Objective
lens
4. The rays are refracted or bent back to parallel through the eyepiece lens.
Tube
Stand
Eyepiece lens
Objective
lens
4. The rays are refracted or bent back to parallel through the eyepiece lens.
Tube
Stand
Eyepiece lens
Objective
lens
5. The eye can pick up the rays.
Tube
Stand
Eyepiece lens
Objective
lens
6. Just like the refracting telescope, the reflecting telescope also has a focal point where the rays cross over.
Tube
Stand
Eyepiece lens
Objective
lens
Focal Point
6. Just like the refracting telescope, the reflecting telescope also has a focal point where the rays cross over.
Tube
Stand
Eyepiece lens
Objective
lens
Focal Point
6. Just like the refracting telescope, the reflecting telescope also has a focal point where the rays cross over.