- Principles of Physical Complexity (2012)
- Dedication
- Abstract
- Introduction
- Hypotheses
- Logic (order)
- Method
- First principles
- Axiomatic properties
- Basic properties
- Simple properties
- Complex properties
- Phenomena
- Science
- Conclusions
- General conclusions
- Literature references
- Table: axiomatic & basic properties
- Table: spacetime dimensions
- Scheme: simple properties
- Scheme: complex properties
- Table: physical correlations
- Table: physical correlations (extract)
- SI-Units
- Author
- Copyright©
Principles of Physical Complexity by Jos Koomen (Memes Ltd) - Complex Problem Solutions
relative mass & relative temperature
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Relative mass & relative temperature
- Relative mass (δm/∆T) and temperature (δm/∆T) are supposed to be simple properties quantifying, respectively, the relative material and relative thermal character of phenomenal intrinsic energy (see: energy//definition, energy//basic properties & ...//simple properties//scheme, and physical correla-tions//relative mass (6), relative temp. (9) & energy (11), and energy//relative equation).*
- Phenomenal relative mass (δm/∆T), structural density (δm/∆l3) and chemical conversion rate (δm/∆t3) are supposed to quantify, together, the overall relative material character of phenomenal gravitation (see: gravitation//simple properties & ...//relative equation, and physical correlations//rel. mass (6), rel. temp. (9) & gravitation (51)).
- Phenomenal relative temperature (δT/∆m), functional intensity (δT/∆t3), frequency (t-1) inclusive, and electromagnetic charge (δT/∆l3) are supposed to quantify, together, the overall relative thermal character of phenomenal wave- or string-like character (see: string//simple properties & ...// relative equation, and physical correlations//rel. mass (6), rel. temp. (9) & string (52)).
*The term 'relative mass' is reserved for 'energetic relative mass', ie mass over temperature. However, structural density, ie mass over space, and chemical conversion rate, ie mass over time, are also forms of 'relative mass' (see: density & conversion rate).
In a similar way, 'relative temperature' is reserved for 'energetic relative temperature', ie temperature over mass (see also: intensity, ie temperature over time & electromagnetic charge, ie temperature over space).
Internet resources & literature references
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