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  Expression Constants -  "C"  

 | Next |     Updated 07/29/2008 17:37:01 -0700

     C = Expression Constant ; N = Numeric; T = Time

• C1 + C2 + C3 = Cnx
  • C seen as any Quantitative and/or Qualitative expression has an unknown unit but has a Quantitative correlation in the unit.
  • C + C = CN
  • E=MC2 + E=MC2 => 2E =2MC2
  • Fruit A + Fruit B = 2 Fruit unit x
  • F=M/d2 + E=MC2 = > 2C unit x
  • C3/C2 => NC1
• C1 + C2 = NC where N= 2; a Non Transformation?
  •  or C1 + C2 = NC ; where N < 2 or N >2.
  • Biological implications and/or Physical Implications?
   
• C1 + C2 + C3 = C4 + C5 + CN
  • Different Quantitative and/or Qualitative expressions have common Quantitative components
• C * Nx = CT1CX
  • Expression Constant * Some Quantitative component implies basic Time unit component to the expression with unknown Qualitative Constant unit.
• C*C */ C* C = C1
  •  An expression of expressions is an expression
• C* C * C * CN  = C1NC
  • An expression of expressions and a Quantitative component can give an expression to the power of some Quantitative Expression
• A/A*/A/A = A    where A = Apple,
  • Gives some Apple expression
• A/A */A/A = Fruit = C(Apple)x   where A = Fruit
  • This same expression can be seen as an Apple expression with unknown quantitative and/or qualitative unit
• (c)/(c) */ (c)/(c) = C(Energy/MassApple)x  where c= speed of light.
  • Where even  expression(s) of the speed of light give an expression constant of unknown Quantitative and/or Qualitative unit but with Quantitative correlation.
• cFruit = C(Energy/MassApple+Pear+Orange+NXunit Fruit )x  ;
  •  As the qualitative denominator(s) are increased and are numerically factored for any expression, useful mathematical results can be found for any such expression. Implying an Expression Unit Constant.
      C = f(Common Informational Property(s))
  • See Constant Unit Unknown expressions & methods for solving them
  • Look at mc2 =  E with   Any(B)  × Every(A)  => Every(B) ; Any(B) = mass , Every(A) = C2 ,  Every(B) = Energy  and A & B are systems.  A is the principal system and B is a Sub System.

This shows the Algebraic Constant, with Numeric and Temporal context, of a given expression

Author - Zim Olson     Top of Page