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(This is an equation to describe the relationship between the paramagnetic contribution (R2para or Γ2) to the increased transverse relaxation rate (R2). The terms of the equation are r is the distance in cm , K is a collection of physical constants, τc ) |
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| - | This is an equation to describe the relationship between the paramagnetic contribution (R2para or Γ2) to the increased transverse relaxation rate (R2). The terms of the equation are r | + | This is an equation to describe the relationship between the paramagnetic contribution (R2para or Γ2) to the increased transverse relaxation rate (R2). The terms of the equation are r, the distance in cm; K, a collection of physical constants; τc (tauc), total rotational correlation time; ω , the Larmor frequency; and Γ2 (the term that defines the paramagnetic relaxation enhancement) the additional transverse relaxation caused by the free radical (electron(s)). |
Revision as of 06:14, 23 January 2011
This is an equation to describe the relationship between the paramagnetic contribution (R2para or Γ2) to the increased transverse relaxation rate (R2). The terms of the equation are r, the distance in cm; K, a collection of physical constants; τc (tauc), total rotational correlation time; ω , the Larmor frequency; and Γ2 (the term that defines the paramagnetic relaxation enhancement) the additional transverse relaxation caused by the free radical (electron(s)).
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| Date/Time | User | Dimensions | File size | Comment | |
|---|---|---|---|---|---|
| current | 23:22, 22 January 2011 | bmoret42 (Talk | contribs) | 960×720 | 15 KB | This is an equation to describe the relationship between the paramagnetic contribution (R2para or Γ2) to the increased transverse relaxation rate (R2). The terms of the equation are r is the distance in cm , K is a collection of physical constants, τc |
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