Red sunrise/sunset - Blue light (short wavelength) is scattered more strongly than red (longer wavelength), as the amount of scattering depends on l-4. This is why the sky looks blue to us. Also, when the sun's rays propagate through a long path in the atmosphere more blue light has been scattered out of the beam than red, and so more red than blue remains (Rayleigh scattering).

Sirens - The shift in frequency that we hear as it goes past is due to the Doppler effect. We will come back to the same ideas later using light.

Colours in oil spills and mega-bubbles - Where do these colours appear from? We will need to use ideas about light as a wave, and how waves can interfere with each other, in order to explain the origin of these patterns.

The compact disc player - Our prime example of the modern relevance of optics - and the excuse to get some musical backing.

You can reach us at 832-340-7769 in League City or (409) 962-5489 in Port Arthur. Our fax number is 832-340-7957 in League City and (409) 962-0783 in Port Arthur. We look forward to hearing from you soon! You can also contact us at our e-mail address: AmazingEyeGym@gmail.com. We welcome your comments as they help us serve you better.

The doctor is very thorough. I was able to ask questions about the changes of my eyes. She explained every test and addressed all my concerns. I did not feel rushed and I didn’t feel like just a number. Thank you Dr. Felton.

Point of View OpticalSyracuse NY

If you are not familiar with our company and your first contact with us is online: We would be pleased to hear from you! Please let us know what your needs and questions are and we will be more than happy to help.

Optics is the study of light and its uses. "Light" is electromagnetic radiation which can be detected by our eyes, ie electromagnetic radiation with wavelengths in the range ~400 nm - 700 nm (though often very similar ideas apply beyond both ends of this wavelength range). In this lecture course we will look at basic ideas of light propagation, geometrical optics (imaging, etc), interference and diffraction of light, and some of the many uses to which light is put. Far from being just an "old" subject, optics is becoming increasingly important as more and more use is being made of lasers and optoelectronics in industry and society. We will look at various examples including laser-based remote sensing, optical communications, laser-based length measurement, and optical data storage (the CD). The last topic is the one which has brought lasers, precision optics, and optoelectronics into many households; we will be using this example throughout the course to illustrate the various optical phenomena that we shall be attempting to explain.

Dr Yeager optometrist

I called today for an appt for my son for something that happened to his eye at school and the staff and doctor were very nice and helpful and got him in for appt the same day and within hour that I called. Dr. Felton was very nice and patient with my son. The girls at the front desk were also very nice and helpful. Will definitely recommend to others.

The physics and mathematics of wave motion underlie many important phenomena. The water wave on the sea, the vibration of a violin string, and the quantum mechanical wave associated with an electron can all be described in a similar way. Light too, often displays properties that are wave-like. We will start the course looking at "ray" optics, but then pause for a general treatment of waves of all types. We will start this waves section by reviewing ideas of oscillations and simple harmonic motion, and go on to look at the physics of travelling and standing waves. We will apply these ideas to various types of wave, and see how all-pervading this topic is in physics. We will then be in a position to consider a number of phenomena in which the wave properties of light are important.

Optical Fibres - Application of basic ideas of reflection and refraction show that light can be guided along transparent fibres. This may be used for illumination or for optical communications. Optical communications? If you telephone anyone more than a few tens of miles away you are likely to be using optical fibres, and if you use the University computers, that whole network is linked together using pulses of light speeding through a loop of fibres around St Andrews. The "light" that is chosen for use has a long wavelength - due to Rayleigh scattering again.  This School is currently leading a 10.5 million pound research collaboration looking at how to get even faster data transfer across optical communication networks.

Opticspoint of viewmeaning

Quantum Waves - We will leave a good treatment of quantum mechanics to Physics 1B, but let us note that many of the ideas of classical waves transfer to the complexities of the quantum world.

Super friendly staff and Dr Felton is great! She explains everything and makes it clear. She is bilingual also. I was referred here after my doctor of almost 7 years pushed me away and I’m glad it happened! Best service!

Blue skies - Some of the sunlight travelling through the atmosphere is scattered towards the earth; blue light is scattered more strongly than red, therefore ...

Lasers - A flourishing research field in this school, and a technologically important topic. The laser is a prime example of the modern use of optics, with applications in material processing, optical communications, optical data storage, medicine, warfare, science, metrology, and reprographics.

“Float like a butterfly, sting like a bee. The hands can't hit what the eyes can't see.”― Muhammad Ali "Obstacles are those frightful things you see when you take your eyes off the goal" ― Henry Ford

Amazing Point of View is a three-location optometry practice in both League City and Port Arthur, Texas. Our mission is to offer a personalized high quality eye care experience in a professional, yet pleasant atmosphere to every patient on every visit.

All are on reserve in the departmental library. Longhurst is my favourite, but Hecht is the one that is currently recommended for purchase for the Honours course on Optics.

What did we see in the introductory slide show? This list is intended to indicate some examples of ideas in optics and waves, and to describe the path we will be taking in the subject during the forthcoming lectures .

Swan PondOptical

Rainbows - You have all seen them, but how is the white light split up into the arcs of different colours that we see in the rainbow?  See the material on rainbows in the ray optics section to learn more.

Hovering spectra - Produced by shining a spotlight through a special effects filter - a diffraction grating in fact. We will need to look at light as a wave again here, and will show how these effects can be used to separate light of different wavelengths in spectroscopy (terrestrial or astronomical), and to colour certain insects.

I will be using a number of computer-based simulations in this course to try to explain what is going on.  I believe that you will find them useful to explore. In the web pages of lecture summaries you will find a number of "Java applets" that should be able to run on most computers.  These are small programs that allow us to get you exploring some of the optics ideas.  Most are from other sites, and are acknowledged as such.  Those from Lightlink have a <=Back button at the foot of their pages - this is not a back button in the correct sense; clicking on this will take you to the Lightlink index.  Please use your browser's back button instead.

Prism and Refraction - "White" light is composed of many different wavelengths, which we can separate by using, for example, a prism. Spectacles, cameras, - The idea of the lens and image formation are important for telescopes, binoculars many optical instruments, and we shall spend some time developing the theory needed to predict the behaviour of light and lenses.

Our League City office specializes in Sports Vision assessment and training. We have state of the art training equipment that is used to train the eyes for enhanced athletic performance. Dr. Felton performs examinations to assess each athletes visual abilities pertaining to the sport of their choice. She is able to evaluate where each athlete ranks in comparison to their peers at the same level of play. She then formulates a training program that decreases reaction time, increases eye-hand coordination, and increases peripheral awareness. She can train athletes to have better visual prediction, improved contrast sensitivity, and improved speed and coordination in specific quadrants. This training is useful for athletes of all levels from Professional to novice.

I positively welcome interruptions from any of you during the lecture if you have not understood a point that I have tried to put across - you will probably not be the only one. Likewise, you are welcome to try picking my brains at the end of the lecture if there are any remaining problems. Your tutors can also be a great help, but remember that you will get the most out of your tutorials if you prepare beforehand, and, in particular, if you have attempted the questions on the tutorial sheets. You are welcome to ask me questions at other times of the week if you can find me (room 214, across the corridor from the school office and down a wee bit).

Most of the fundamental ideas in waves optics are well covered in the general textbooks that have been recommended to you (Halliday, Resnick, & Walker; Ohanian). Books specifically on optics that you may find useful reading include

In the tutorial questions we make use of more substantial simulations, which are available for your use in our PC Classroom. The tutorial questions printed in this handout are also reproduced electronically on the World-Wide-Web. These pages are accesible from networked computers within the st-andrews.ac.uk domain. But to gain full benefit from them, the PC Classroom here is best, as there are links from the web-pages to the simulation programmes that are loaded on the PC Classroom network. To get to the pages associated with this (and other) courses within the School, follow the links from the University’s page => Academic Schools => Physics and Astronomy. Once there, follow the links on Teaching and Courseware. Special sessions will be run in first week to introduce students to the PC Classroom, Windows NT, the Web, and the use of the simulations. As well as this being useful for your study of physics, experience of computers is now almost a pre-requisite for many careers.

Our goal is to provide you with the best possible vision performance by providing a thorough eye examination in a relaxed yet professional environment. We strive to maintain the highest health care standards and are committed to maintaining the overall wellness of each of our patients.

Cats eyes - What is happening in our cat and on the road to give strong reflections back towards us? Some interesting ideas in refraction and reflection here. Timepieces - The pendulum clock and the "quartz" watch both function due the well-defined period associated with an oscillator. Although the sizes are very different, much of the physics is the same.

Various colours - What is "colour"? How much is physics, and how much is psychology and physiology? The colours of the spectrum are directly related to the wavelength of the light, red at ~630 nm, orange as in sodium street lights at 590 nm, yellow around 570 nm, green around 530 nm, blue around 480 nm. Other colours such as brown, grey, purple, etc, are as much psychological and physiological in origin as physical.