Archetypes In Waterworld :: Film, Movie

The 1995 hit film Waterworld is a prime example of archetypes appearing in modern crusade pictures. The movie displays three main characteristics that give it archetypal meaning. The first of these is the classic hero archetype. Secondly, many archetypal elements of nature are displayed. Lastly, many otherwise archetypes such as safety, extremes, and topography appear in the film.Waterworld perfectly portrays the heroic archetype. Kevin Costner plays the role of the mariner whose quest is to get to dryland. Playing the immoral side is Dennis Hopper who acts as the evil deacon whose mission is to stop the mariner and get to dryland first. The mariner is forced to leave his current lifestyle and is almost killed shortly afterwards. Along the way, he receives financial aid from a wise old man, soul mate, and innocent youth. Costner defeats the deacon when the young girl, Enola, is captured. Soon after, they return to dryland where everything is peaceful and resources abound.The va rious settings in Waterworld include many archetypes and render meaning to the story. For one, the deep, salty sea engulfs the whole world. Archetypally, this holds a demonic meaning, and in Waterworld the characters are constantly trying to overcome it. The sun also makes it very hot, giving the characters a thirst which cannot be quenched, as there is no water. Furthermore, any vegetation is extremely valuable because it gives the people vital nutrients, which they need to survive.Many other archetypes also appear in the film. For example, the mariners ship is a place of safety for the mariner and his companions. Therefore it has a positive archetypal meaning and is important to the story. In addition, negative archetypes also emerge. Two of these are extreme heat and dessert like topography.

Male Specific Neurons In Flies Essay -- Biology Fly

Have you watched a fly chase another fly all just about the room and ever wonder how they manage to always be so close to constricther even though the prey is trying its best to get away? Well, some scientists wondered. They were intrigued with this mating chase of the male fly after the female fly. You could say that the female was trying to play hard to get small-arm the male lustily engages the pursuit.The male nearly always gets his prey. However, if the female fly tried to chase the male, she would have no such luck. This is due to the versed dimorphism of the fly. The male fly has a superior optic dodge to the female which he can use to locate and intercept the female fly in flight however, the female fly does not have this advantage. The male-specific neurons that control the flys superior visual system are complicated and intricate.The history behind the study of the flys neurons begins with a 19th Century scientist by the name of Cajal. He studied neural systems and was the first to isolate nerve cells near the surface of the brain. His work led to a greater study of neurobiology and the passion for attempting to understand the workings of the nervous system. However, real progress in this field did not culminate until Land and Collett established a remarkable theoretical model of the two part visual system of the flys brain.This model was incredibly close to the actual structure and function of the male flys visual system. The structure of the males eyes are even different to the females. When looking at the two side by side, one can readily see the differences. as yet these outer physical differences attribute to the males superiority with his binocular vision and the ability to keep a pose continually in his... ...y will compensate, yaw, pitch, and thrust, to return the target image into the area of male specific neurons. This behavior is found only in male flies, and while female flies are attracted to flickering objects as males are, they do not use have a different system to control yaw torque as males do. The males employ a position- independent system of tracking using yaw adjustments, relying on direction. This allows the males to intercept a target or change direction in tracking without overshooting the target. Females are unable to do this. The males also use pitch and thrust to pursue other flies. The position of the target in the mid-sagittal plane drives the pitch, based on the elevation of the targets image. Thrust relates to the standoffishness between the pursuer and the target. The relationship between target range and velocity is shown to be male-specific behavior.