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biotic potential example

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Question:For example: Abiotic Biotic 1. 1. 2. 2. 3. 3. 4. 4. Please give me an answer and thanx!

Answers:Abiotic 1. air 2.earth 3.soil 4.minerals Biotic population of various species trees animals population of different species which affect each other

Question:helppppp i need and example i already have the definition!

Answers:[Abiotic is non living][ biotic is living] rocks minerals soil are all abiotic components of an ecosystem your welcome

Question:well my daughter has a science project and she has to list some abiotic examples and biotict can someone help me??!!

Answers:These are categories of factors in an ecosystem. Abiotic means not living and also "never" living. Some examples: temperature, wind, water, humidity, amount of light, pressure, pH, pollution, rocks, ... Biotic means living, but also includes things that have died and organic products from living things: trees, predators, prey, animal wastes, fallen leaves, ...dead tree trunks, hawks, rabbits, grasses, mold, bacteria, mosquito, ...

Question:Would an example of potential energy be: 1. Electricity flowing through a wire 2.the chemical energy in a candy bar 3. A leaf falling from a tree 4. Water flowing PLEASE ANSWER ASAP!!!

Answers:3 is not correct, or at least not the best answer, because the leaf is falling (it has kinetic energy). Actually, this is an ambiguous question. The leaf still has some gravitational potential energy while it's falling, but it also has kinetic energy. I think the best answer is 2, because the chemical bonds in the candy bar are relatively unstable compared to the bonds in CO2 that your body can convert them into. Chemical potential energy means just that, unstable bonds that can be converted into stronger ones with a net release of energy.

From Youtube

Learn Biology: Factors That Affect Biotic Potential :www.mahalo.com Mary Poffenroth, an adjunct professor of biology, teaches you different topics of biology. In this video she explains the different factors that affect biotic potential. Biology Playlist: www.youtube.com Check out these related Mahalo pages: Factors That Affect Biotic Potential: www.mahalo.com Keystone Species vs Indicator Species: www.mahalo.com Autotrophs vs. Heterotrophs: www.mahalo.com Genetically Modified Organisms: www.mahalo.com Stem Cells: www.mahalo.com Greggor Mendel Biography: www.mahalo.com How to Draw a Punnett Square: www.mahalo.com Check out more video from Mahalo: How to Speak German: www.youtube.com How to Speak French: www.youtube.com How to Speak Spanish: www.youtube.com How to Speak Korean: www.youtube.com Christmas Arts & Crafts: www.youtube.com How to Have a Healthy Relationship: www.youtube.com Parenting: www.youtube.com Celebs in 60: www.youtube.com Canon DSLR: www.youtube.com LA's Hottest Bartender: www.youtube.com

Potential Energy :Check us out at www.tutorvista.com Potential energy is energy stored within a physical system as a result of the position or configuration of the different parts of that system. It has the potential to be converted into other forms of energy, such as kinetic energy, and to do work in the process. The SI unit of measure for energy (including potential energy) and work is the joule (symbol J). The term "potential energy" was coined by the 19th century Scottish engineer and physicist William Rankine. Potential energy is energy that is stored within a system. It exists when there is a force that tends to pull an object back towards some lower energy position. This force is often called a restoring force. For example, when a spring is stretched to the left, it exerts a force to the right so as to return to its original, unstretched position. Similarly, when a mass is lifted up, the force of gravity will act so as to bring it back down. The initial action of stretching the spring or lifting the mass both require energy to perform. The energy that went into lifting up the mass is stored in its position in the gravitational field, while similarly, the energy it took to stretch the spring is stored in the metal. According to the law of conservation of energy, energy cannot be created or destroyed; hence this energy cannot disappear. Instead, it is stored as potential energy. If the spring is released or the mass is dropped, this stored energy will be converted into kinetic ...