Difference between revisions of "Natural causes"

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In the biological world, there are natural laws governing [[plant growth]], [[animal behavior]], [[infectious disease]]s and so on.  
 
In the biological world, there are natural laws governing [[plant growth]], [[animal behavior]], [[infectious disease]]s and so on.  
  
Human beings, however, tend to be unpredictable.  This could be because they were granted [[free will]] by God (compare [[Determinism]]), or because predicting the behavior of complex systems is computationally hard <ref>Scott Aaronson, <i>Quantum Computing since Democritus</i> lecture notes. http://www.scottaaronson.com/democritus/lec18.html  Retrieved 1/1/2012</ref>.
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Human beings, however, tend to be unpredictable.  This could be because they were granted [[free will]] by God (compare [[Determinism]]), or because predicting the behavior of complex systems is computationally hard.<ref>Scott Aaronson, ''Quantum Computing since Democritus'' lecture notes. http://www.scottaaronson.com/democritus/lec18.html  Retrieved 1/1/2012</ref>
  
 
==Physical science==
 
==Physical science==

Revision as of 14:20, June 24, 2016

Natural causes are physical forces like gravity, magnetism, electric fields and so on which operate consistently. Sometimes they are called laws of nature, because careful observers over the years have not found any exceptions to these forces.

For example, whenever you drop something, it falls. Or whenever you combine two chemicals of a certain type, they always react the same way.

In the biological world, there are natural laws governing plant growth, animal behavior, infectious diseases and so on.

Human beings, however, tend to be unpredictable. This could be because they were granted free will by God (compare Determinism), or because predicting the behavior of complex systems is computationally hard.[1]

Physical science

The field of physical science concerns itself with discovering natural causes and codifying them in terms of the effects they have on the observable world. In astronomy, for example, Kepler introduced three laws of motion in the 1600s which still stand true today.

Issac Newton introduced his own, better-known, laws of motion as well. Newton told us that the amount of force applied to an object is directly proportional to the effect on its momentum. For example, if you push a 2,200 pound car on a railroad track with 110 pounds of force, it will accelerate at the rate of 1/20 meter/second. After 30 seconds, it will reach approximately 5 feet/second.

See also

Notes

  1. Scott Aaronson, Quantum Computing since Democritus lecture notes. http://www.scottaaronson.com/democritus/lec18.html Retrieved 1/1/2012