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Visual Perception Chapter 3 Pages 75-125.

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Presentation on theme: "Visual Perception Chapter 3 Pages 75-125."— Presentation transcript:

1 Visual Perception Chapter 3 Pages

2 Every day we are bombarded by information from the environment (stimuli) Our body receives this information via our senses. We have five senses: what are they? Out of all the information that comes to us we only attend to a small amount of it due to selective attention. By doing this we can filter out information that isn’t important and only pay attention to what is important to us.

3 We see the world with our eyes but our brain interprets what we see
We see the world with our eyes but our brain interprets what we see. Each sense that captures information (ear, eyes, nose) has specialised cells that transmit the information to the brain to be interpreted. This is known as a sensation.

4 Perception Perception is the mental process of receiving, organising and interpreting information received by our sense organs into meaningful objects.

5 Characteristics of the Visual Perception System
How do we see? How do we interpret visual sensations?

6 Characteristics of the Visual Perception System
The eye can only see electromagnetic energy: This is the physical and external energy that comes from the environment. Physical energy Sense organ Electromagnetic energy Vision Mechanical energy Hearing and touch Chemical energy For taste and smell

7 Electromagnetic Energy
Consists of particles of energy that travel in waves of different sizes. The entire range is known as the Electromagnetic Spectrum. It is divided into sections according to frequency and wavelength. The human eye can only detect a small portion of the electromagnetic spectrum which is called “visibly light”. The visible light spectrum ranges in wavelengths from 380nanometres-760nanometres

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9 Characteristics of the Visual Perception System
The eye detects electromagnetic energy. Receptor Cells convert the energy into a neural impulse (electrochemical message that travels along neural structures to reach and communicate with the brain) It changes form otherwise the brain wont be able to understand it.

10 Detecting and Focusing Light
In a nutshell, in order for vision to occur 2 things need to happen: Light needs to travel through the eye and produce a focused image on the retina. The retina needs to convert this image into a neural impulse which can be sent to the brain to be interpreted.

11 Light enters eye through Cornea.
Light passes through the Aqueous Humour. It then goes through the pupil which is surrounded by the Iris. The muscles in the Iris contract and expand depending on the amount of light it wants to enter. Light then passes through the Lens which focuses the image onto the retina. Then the Vitreous Humour. The image is then captured by the Retina. When the image is on the retina it is upside down and back to front. Message then gets sent down the optic nerve to the brain where it is interpreted.

12 http://www. youtube. com/watch
30sec 2min39

13 Converting Light into a Neural Impulse.
In order for the brain to understand, the electromagnetic energy (light) needs to be converted into a neural impulse by the receptors cells. This is done at the RETINA. The retina consists of a number of layers beginning with specialised receptor cells that convert this energy. These receptor calls are called PHOTORECEPTORS. Photoreceptors convert the electromagnetic energy into electrochemical energy.

14 Photoreceptors There are two types of photoreceptors. Rods Cones
They both detect and absorb light. Once light is absorbed the rods and cones generate a nerve impulse which stimulates neighbouring cells called Bipolar which then transmit the information to Ganglion cells. Ganglion cells pass the information along the optic nerve to the brain for interpretation.

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16 Rods Cones 125mill rods in each retina More sensitive to light
Help us see in dim light Assist our vision at night Found in the outer regions of the retina Responsible for peripheral vision Detect less detail Takes 30min to adapt to dark conditions 6.5mill cones in each retina Enable us to see colour Work best during the day Operate poorly in dim light Found in the centre of the retina Also found in the fovea (located in the centre of the retina and only contains cones (50,000) Cones enable visual acuity (detection of fine detail)

17 Thresholds Limits of our sensory abilities. Absolute threshold: the lowest level of a stimulus that a person can detect. Needs to be seen 50% of the time Vision: candle flame seen at 50km under ideal conditions 50% of the time. Differential threshold: the smallest difference or change that can be discriminated between two stimuli.

18 Visual Perception Process. Page 88-90
Reception Transduction Transmission Selection Organisation Interpretation Refer to text book and handout.

19 Lets have a read of page 89


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