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Mouse Trap Car Writeup

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❶If the rotational inertia is less for same torque the wheel has high angular acceleration making it rotate at high angular velocities.

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The Mousetrap by Agatha Christie Essay
The Mechanics behind a Mousetrap Car Essay Sample

False information creates suspense because it gives details that need investigation, during investigation there is a creation of suspense the audience is wondering about the results of the investigation and wondering who could be the murderer amongst them. Information that is not true tend to create anxiety and imaginary clues about what will happen hence create suspense.

False names, locations, and confessions, make the audience want to find the truth. False information creates turmoil, anger, and betrayal, crimes against characters and resentment that will create a basis for suspense. The audience will be alert, anxious, worried and guessing about what will occur the last part the play. Conclusion The above discussion clearly shows that the author utilized the aspect of suspense in different elements of literature. The main styles of suspense in the Mousetrap play include; romance, humorous and horrific which are extremely essential to bring out traits of a mystery play.

Evidently, horrific suspense created when there is a murder in the beginning of the play and romance suspense, created when the owners of the inn and the residents of the English countryside suspect each other about the murder.

Buy a custom essay on The Mousetrap online, at CustomWritings. Your essay will be written by professional academic writers. Also, more mass involved with the rotation of the axels will cause more friction. Therefore, heavier cars will be much less successful than vehicles using much lighter materials due to the amount of friction and inertia, which will not allow the car to travel as far or as fast under the same conditions.

The wheels were made of three sizes of circular pieces of foam board supported by a slice of a cardboard tube. A standard sized mousetrap was secured to the chassis and a 3-inch length of copper pipe was used to lengthen the lever to provide more mechanical advantage. A two-feet length of nylon string was secured to the copper pipe and the rear axel.

The wheels were attached to the axels with rubber cement. The various larger sizes were designed to fit over the smallest ones that were attached to the axels. A single front wheel was used throughout the experiment Tests were ran to determine how far the car would travel and how fast they traveled a distance of five and feet. Each wheel size was tested three times and the results were then averaged:. Our results show two distinct characteristics.

The larger wheels traveled a significant amount further than the smaller wheel sizes. However the smaller wheels were capable of quicker acceleration than the larger wheels.

Since the wheels all had about the same amount of mass, the amount of friction did not increase of decrease enough to effect the results significantly. The wheel sizes could thus be adjusted depending upon the type of race the car was involved in; distance, in which the largest wheels would be used, or speed, in which the smallest wheels would be used.

Experience in the design and function of the mousetrap cars would help us to design an even more efficient vehicle. Two layers of foam board would probably be used to cause the wheels to be more level and stable. Also, a longer lever would likely be attached to the existing lever on the mousetrap so that more advantage is achieved. Accessed September 15, We will write a custom essay sample on Mousetrap Car specifically for you. Leave your email and we will send you an example after 24 hours If you contact us after hours, we'll get back to you in 24 hours or less.

How to cite this page Choose cite format: This stored potential energy will convert energy into kinetic energy as the mouse-trap car begins to move. Friction converts energy into heat and sound which takes away energy from your motion, causing the car to stop as its energy is turned into other forms.

When designing a mousetrap car, there are two variables that truly determine the overall performance: If my mousetrap car has too much friction, the energy in the spring will be turned too quickly and my mousetrap car will not travel very far or accelerate very fast. The smaller the friction is, the farther the mousetrap will move my car.

It your car has a force advantage, then your car will move super fast Law of Conservation of Energy said that Energy cannot be created or destroyed; it may be transformed from one form into another, but the total amount of energy never changes.

But there is friction and in order to overcome friction you have to do more work.

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Mousetrap Car Essay The Mousetrap Race Car Project demonstrated an individual(s) potential of a skill to manufacture the most capable mousetrap car with the use of levers and pulleys; so that they willingly categorize their car for the primary usage for SPEED, DISTANCE, and STRENGTH. Some may try to make all the aspects into one design.

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A mousetrap car is a combination of two simple machines designed to operate much like a gas-powered car. However, a mousetrap is used instead of an internal combustion engine for the motor. The most common design involves positioning the mousetrap on the chassis of the cars and attaching an extended lever on the trap to one of the car’s axles.

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Open Document. Below is an essay on "Mousetrap Cars" from Anti Essays, your source for research papers, essays, and term paper examples/5(1). If my mousetrap car has too much friction, the energy in the spring will be turned too quickly and my mousetrap car will not travel very far or accelerate very fast. The smaller the friction is, the farther the mousetrap will move my car.

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Mouse trap car Above all, our car should be light. The smaller the mass of our car, the further it can directlenders.mlore, we used a thin wood as the body of our car and two long, narrow sticks for the wheels axles. Then, we used a string to tie to the arm of the mousetrap . The mousetrap car would not have moved if a force that was unbalanced had not acted upon it. Newton’s third law explains that for every force there is an equal and opposite reaction force. The force of the air is equal to the force of the racecar when it thrusts forward, but the racecar is .