Fine-Tuning of the Universe (part 1 of 8): Physical Laws

Rating:
Font size:
A- A A+

Description: Fine-tuning by design is an argument from physics and cosmology for the divine creation of the universe.  It will be shown that discoveries of physics and cosmology in the last fifty years strongly support the existence of God and the divine creation of the universe.  This article will describe the fine-tuned elegant laws of nature.

  • By Imam Kamil Mufti (© 2014 IslamReligion.com)
  • Published on 31 Mar 2014
  • Last modified on 14 Aug 2022
  • Printed: 219
  • Viewed: 61,185 (daily average: 16)
  • Rating: 2.7 out of 5
  • Rated by: 87
  • Emailed: 2
  • Commented on: 0
Poor Best

What is Fine-Tuning?

FineTuning1.jpgOver the past century, scientists have discovered that if certain properties of the universe were changed very slightly from what they are, we would not be here.  They have to be within a very narrow range for our universe to make life possible and be habitable. 

The universe is fine-tuned for the existence of intelligent life with a complexity and delicacy that literally defy human comprehension.  The sensitivity of the ‘habitability’ of the universe to small changes is called ‘fine-tuning.’

This was recognized about 60 years ago by Fred Hoyle who was not a religious person at the time he made the discovery.  Scientists like Paul Davies, Martin Rees, Max Tegmark, Bernard Carr, Frank Tipler, John Barrow, and Stephen Hawking, to name a few, believe in fine-tuning.  These are prominent names in cosmology as they are heard in the media whenever a news headline is made.

Types of Fine-Tuning

1.  Fine-tuning of the laws of nature.

2.  Fine-tuning of the constants of physics.

3.  Fine-tuning of the initial conditions of the universe.

We will explore each category below:

1.  Fine-Tuning of the Laws of Nature

There are two ways to look at this aspect of fine-tuning:

1.    Precisely the right laws are needed for highly complex life to exist.  If one of these were missing, such life would not be possible.  To say that the laws are fine-tuned means that the universe must have precisely the right set of laws in order for highly complex life to exist.  Perhaps this type of fine-tuning is the easiest of the three to understand.

Example 1: The law of gravity states that all masses attract each other.  What would the universe be like if gravity did not exist? There wouldn’t be any stars or planets.  Matter would be equally distributed around the universe with no place for life to form or energy sources like the sun that provide food to plants through photosynthesis that in turn become food for animals.

Example 2: One type of force can play multiple roles in this very well designed system.  For example, the electromagnetic force refers to the combination of electric and magnetic forces.  James Clerk Maxwell unified the two forces in 1800’s. 

If there were no electromagnetic force, there would be no atoms because there would be no force to hold the negatively charged electrons with the positively charged protons that allow for chemical bonds.  There would be no building blocks of life as there would be no chemical bonding, and therefore no life. 

The electromagnetic force plays another role in light which is a type of electromagnetic radiation.  It allows energy to transfer from the sun to our planet.  Without this energy we would not exist. 

2.    Harmony between nature and mathematics: Only in the 20th century have we come to understand that what we observe in nature can be described by only a few physical laws, each of which is described by simple mathematical equations.  Just the fact that these mathematical forms are so simple and few in number that they can all be written on one sheet of paper is amazing.

Table1.  The Fundamental Laws of Nature

·Mechanics (Hamilton’s Equations)

Fine-Tuning_of_the_Universe_(part_1_of_8)._002.gif
Fine-Tuning_of_the_Universe_(part_1_of_8)._003.gif

·Electrodynamics (Maxwell’s Equations)

Fine-Tuning_of_the_Universe_(part_1_of_8)._004.gif

Fine-Tuning_of_the_Universe_(part_1_of_8)._005.gif

·Statistical Mechanics (Boltzmann’s Equations)

Fine-Tuning_of_the_Universe_(part_1_of_8)._006.gif

Fine-Tuning_of_the_Universe_(part_1_of_8)._007.gif

·Quantum Mechanics (Schrödinger’s Equations)

Fine-Tuning_of_the_Universe_(part_1_of_8)._008.gif

Fine-Tuning_of_the_Universe_(part_1_of_8)._009.gif

·General Relativity (Einstein’s Equation)

Fine-Tuning_of_the_Universe_(part_1_of_8)._010.gif

For life to exist, we need an orderly and intelligible universe.  Furthermore, order at many different levels is required. 

For instance, to have planets that circle their stars, we need Newtonian mechanics. 

For there to be multiple stable elements of the periodic table to provide a sufficient variety of atomic "building blocks" for life, we need the atomic structure given by the laws of quantum mechanics. 

We need the orderliness in chemical reactions that is the consequence of Boltzmann’s equation for the second law of thermodynamics. 

And for an energy source like the sun to transfer its life-giving energy to a habitat like Earth, we require the laws of electromagnetic radiation that Maxwell described.[1]

Physicist and Nobel Prize winner Eugene Wigner in his widely quoted paper, The Unreasonable Effectiveness of Mathematics in the Physical Sciences notes that scientists often take for granted the remarkable - even miraculous - effectiveness of mathematics in describing the real world.  He says:

"The enormous usefulness of mathematics is something bordering on the mysterious…There is no rational explanation for it…The miracle of the appropriateness of the language of mathematics for the formulation of the laws of physics is a wonderful gift which we neither understand nor deserve."[2]



Footnotes:

[1] Bradley, Dr.  Walter.  Is There Scientific Evidence for the Existence of God?  How the Recent Discoveries Support a Designed Universe.  On-line.  Available from Internet, http://www.leaderu.com/real/ri9403/evidence.html, accessed 10 March 2014.

[2] Wigner, Eugene.  1960.  The Unreasonable Effectiveness of Mathematics in the Physical Sciences.  Communications on Pure and Applied Mathematics, vol.  13: 1-14.

Poor Best

Parts of This Article

View all parts together

Add a comment

  • (Not shown to the public)

  • Your comment will be reviewed and should be published within 24 hours.

    Fields marked with an asterisk (*) are required.

Other Articles in the Same Category

Other Videos in the Same Category

Most Viewed

Daily
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)
Total
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)

Editor’s Pick

(Read more...)
(Read more...)
(Read more...)

List Contents

Since your last visit
This list is currently empty.
All by date
(Read more...)
(Read more...)

Most Popular

Highest rated
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)
Most emailed
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)
Most printed
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)
Most commented on
(Read more...)
(Read more...)
(Read more...)
(Read more...)
(Read more...)

Your Favorites

Your favorites list is empty. You may add articles to this list using the article tools.

Your History

Your history list is empty.

Minimize chat