A Comparison of Styles and Settings essays

A Comparison of Styles and Settings essays In the short story "Soldier's Home," by Ernest Hemingway, Kreb's rejection of his community's values can be related to Sammy's relationship to his supermarket job in John Updike's "A he never lets readers become personal or emotional to Kreb's. Where in "A unky kid, with a good tan, and a sweet broad soft-looking can, with these two crescents of white just under it, where the sun never seems to hit, at the top of the backs of her legs" (480). Comments about the girls like this one gives Updike's "A&P" a youthful humor for readers to enjoy. Another example of this is when Sammy thinks to himself, "She did not look around, not this queen, she just walked straight on slowly, on these long white prema-donna legs" (481). Statements like this gives readers comic relief and throughout the rest of the story he refers to this leader of the girls as Queenie. An example of when Sammy refers to her is when he says, "Queenie blushes, though maybe it's Hayes 2 maybe just a brush of sunburn I was noticing for the first time, now that she was so close" (483). There is no light-hearted or uplifting thoughts given from Krebs in "Soldier's Home" just serious, cold, not so happy statements for example, "Krebs acquired the nausea i...

Perfectly Inelastic Collision Definition in Physics

Perfectly Inelastic Collision Definition in Physics A perfectly inelastic collision is one in which the maximum amount of kinetic energy has been lost during a collision, making it the most extreme case of an inelastic collision. Though kinetic energy is not conserved in these collisions, momentum is conserved and the equations of momentum can be used to understand the behavior of the components in this system. In most cases, you can tell a perfectly inelastic collision because of the objects in the collision stick together, sort of like a tackle in American football. The result of this sort of collision is fewer objects to deal with after the collision than you had before the collision, as demonstrated in the following equation for a perfectly inelastic collision between two objects. (Although in football, hopefully, the two objects come apart after a few seconds.) Equation for a Perfectly Inelastic Collision:m 1 v1i m2 v2i ( m 1 m 2) vf Proving Kinetic Energy Loss You can prove that when two objects stick together, there will be a loss of kinetic energy. Lets assume that the first mass, m1, is moving at velocity vi and the second mass, m2, is moving at velocity 0. This may seem like a really contrived example, but keep in mind that you could set up your coordinate system so that it moves, with the origin fixed at m2, so that the motion is measured relative to that position. So really any situation of two objects moving at a constant speed could be described in this way. If they were accelerating, of course, things would get much more complicated, but this simplified example is a good starting point. m1vi (m1 m2)vf[m1 / (m1 m2)] * vi vfYou can then use these equations to look at the kinetic energy at the beginning and end of the situation.Ki 0.5m1Vi2Kf 0.5(m1 m2)Vf2Now substitute the earlier equation for Vf, to get:Kf 0.5(m1 m2)*[m1 / (m1 m2)]2*Vi2Kf 0.5 [m12 / (m1 m2)]*Vi2Now set the kinetic energy up as a ratio, and the 0.5 and Vi2 cancel out, as well as one of the m1 values, leaving you with:Kf / Ki m1 / (m1 m2) Some basic mathematical analysis will allow you look at the expression m1 / (m1 m2) and see that for any objects with mass, the denominator will be larger than the numerator. So any objects that collide in this way will reduce the total kinetic energy (and total velocity) by this ratio. We have now proven that any collision where the two objects collide together results in a loss of total kinetic energy. Ballistic Pendulum Another common example of a perfectly inelastic collision is known as the ballistic pendulum, where you suspend an object such as a wooden block from a rope to be a target. If you then shoot a bullet (or arrow or other projectile) into the target, so that it embeds itself into the object, the result is that the object swings up, performing the motion of a pendulum. In this case, if the target is assumed to be the second object in the equation, then v2i 0 represents the fact that the target is initially stationary.   m1v1i m2v2i (m1 m2)vfm1v1i m2 (0) (m1 m2)vfm1v1i (m1 m2)vf Since you know that the pendulum reaches a maximum height when all of its kinetic energy turns into potential energy, you can, therefore, use that height to determine that kinetic energy, then use the kinetic energy to determine vf, and then use that to determine v1i - or the speed of the projectile right before impact. Also Known As: completely inelastic collision