Transformation of Energy: Difference between revisions
Line 20: | Line 20: | ||
[[File:Pythonzzz.png|thumb|800px|right|Computer Model]] | [[File:Pythonzzz.png|thumb|800px|right|Computer Model]] | ||
The vpython model on the right depicts a space probe orbiting the earth and moon. The probe is under the influence of the earth and moon's gravity and has it's own initial velocity. The graph on the left shows the kinetic energy of the space probe plotted against the gravitational potential between the space probe and the earth + moon system. The yellow line represents the kinetic energy, the blue line represents the gravitational potential, and the green line represents the these two values added together. | |||
<br> The important part of this demonstration is the conversion of energy. This is a theoretical situation so there is no energy loss as heat. Kinetic energy is being converted to potential energy and vice-versa as you follow you graph. It is important to note that the kinetic energy and potential energy are freely converted between each other freely as the space probe orbits. | |||
==Examples== | ==Examples== |
Revision as of 20:45, 2 December 2015
PLEASE DO NOT EDIT THIS PAGE. COPY THIS TEMPLATE AND PASTE IT INTO A NEW PAGE FOR YOUR TOPIC.
Claimed by Shalim6
This page expands on the ideas presented by the Conservation of Energy and discusses more in detail how energy changes form.
The Main Idea
Energy Transformation is the process in which energy changes from one form, to another. Examples of forms of energy includes: Kinetic, Chemical, Thermal, Gravitational Potential etc. When ever energy changes its form, there is no net loss of energy (Conservation of Energy). Virtually every process we engage in is accompanied by a transformation of energy. Some common everyday examples of energy transformation include, the chemical energy of coal being converted to thermal energy when burned or the conversion of light energy from the sun into electrical energy.
It is important to account for the efficiency of energy transformation. Every energy transformation is accompanied by some change in thermal energy. In other words, it is not possible to convert 100 J of chemical energy to 100 J of kinetic energy, some of that chemical energy will be converted to thermal energy. This is due to friction mainly.
In the figure on the right, there is a candle being burned. When something is burned, the energy stored within the chemical bonds that make of the object are broken and energy is released. In the figure, the chemical of the energy of the candle is being converted into both heat and light. Practically, it would be much more useful if 100% of the chemical energy of the candle was converted to light (the whole point of a candle!). If this were the case, either the candle would burn much brighter, or burn longer, since energy is no longer being wasted as heat. As stated above however, this process is not 100% efficient, and thus, some energy will inevitably will be converted to heat energy.
A Mathematical Model
If we assume that no energy is being converted to work, then we can simply say Einitial = Efinal. Note that E initial and E final don't specify what form energy takes, merely that their intensities are equal in Joules when summed.
A Computational Model
The vpython model on the right depicts a space probe orbiting the earth and moon. The probe is under the influence of the earth and moon's gravity and has it's own initial velocity. The graph on the left shows the kinetic energy of the space probe plotted against the gravitational potential between the space probe and the earth + moon system. The yellow line represents the kinetic energy, the blue line represents the gravitational potential, and the green line represents the these two values added together.
The important part of this demonstration is the conversion of energy. This is a theoretical situation so there is no energy loss as heat. Kinetic energy is being converted to potential energy and vice-versa as you follow you graph. It is important to note that the kinetic energy and potential energy are freely converted between each other freely as the space probe orbits.
Examples
Be sure to show all steps in your solution and include diagrams whenever possible
Simple
Middling
Difficult
Connectedness
- How is this topic connected to something that you are interested in?
- How is it connected to your major?
- Is there an interesting industrial application?
History
Put this idea in historical context. Give the reader the Who, What, When, Where, and Why.
See also
Are there related topics or categories in this wiki resource for the curious reader to explore? How does this topic fit into that context?
Further reading
Books, Articles or other print media on this topic
External links
Internet resources on this topic
References
This section contains the the references you used while writing this page