medicina

Resonancias en cabales sanguíneos,

de Sal, Azúcar, Hierro y Iodo:

NaCl

A-O-A

A-Fe=Fe-A

A-IH=I=IH-A

Ley:

Vd_{t}[w]+(-K)·(ut)^{n}·w(t) = uxyz·(ut)^{n}·e^{( 1/(n+1) )·(ut)^{n+1}}

w(t) = ( 1/(Vu+(-K)) )·uxyz·e^{( 1/(n+1) )·(ut)^{n+1}}

Ley:

Vd_{t}[w]+K·(ut)^{n}·w(t) = uxyz·(ut)^{n}·e^{(-1)·( 1/(n+1) )·(ut)^{n+1}}

w(t) = ( 1/((-1)·Vu+K) )·uxyz·e^{(-1)·( 1/(n+1) )·(ut)^{n+1}}

Anexo:

Muchas muertes son por resonancia de cabal sanguíneo,

provocando un paro cardíaco.

Resonancia de fiebre de expulsión del alma:

Ley:

Sea PV = kT ==>

d_{T}[P]+(-b)·P(T) = (k/V)·e^{aT}

P(T) = ( 1/(a+(-b)) )·(k/V)·e^{aT}

d_{T}[P]+b·P(T) = (k/V)·e^{(-1)·aT}

P(T) = ( 1/((-a)+b) )·(k/V)·e^{(-1)·aT}

Resonancia de fiebre de reducción del cuerpo: 

Ley:

Sea PV = kT ==>

d_{T}[V]+(-b)·V(T) = (1/V)^{2}·( V(T) )^{2}·(k/P)·e^{aT}

V(T) = (a+(-b))·(P/k)·V^{2}·e^{aT}

d_{T}[V]+b·V(T) = (1/V)^{2}·( V(T) )^{2}·(k/P)·e^{(-1)·aT}

V(T) = ((-a)+b)·(P/k)·V^{2}·e^{(-1)·aT}

Ley:

Sea PV = kaT^{2} ==>

d_{T}[P]+(-b)·2aT·P(T) = (k/V)·2aTe^{(aT)^{2}}

P(T) = ( 1/(a+(-b)) )·(k/V)·e^{(aT)^{2}}

d_{T}[P]+b·2aT·P(T) = (k/V)·2aTe^{(-1)·(aT)^{2}}

P(T) = ( 1/((-a)+b) )·(k/V)·e^{(-1)·(aT)^{2}}

Ley:

Sea PV = kaT^{2} ==>

d_{T}[V]+(-b)·2aT·V(T) = (1/V)^{2}·( V(T) )^{2}·(k/P)·2aTe^{(aT)^{2}}

V(T) = (a+(-b))·(P/k)·V^{2}·e^{(aT)^{2}}

d_{T}[V]+b·2aT·V(T) = (1/V)^{2}·( V(T) )^{2}·(k/P)·2aTe^{(-1)·(aT)^{2}}

V(T) = ((-a)+b)·(P/k)·V^{2}·e^{(-1)·(aT)^{2}}

Principio:

d[ d[T(t)] ] = ( d[p]+d[q] )·d[R]

Ley:

T(t) = (p+q)·R

Ley:

Si p = q ==> T(t) = 2qR

Deducción:

d[ d[T(t)] ] = ( d[q]+d[q] )·d[R] = 2·d[q]d[R]

T(t) = int-int[ d[ d[T(t)] ] ] = int-int[ 2·d[q]d[R] ] = 2qR

Principio:

T(t) tiende a ser estática <==> [Ek][ sum[n = 1]-[oo][ T(t_{n}) ] = k ]

Ley:

Si d[ d[T(t)] ] = ( d[q]+(-1)·d[q]·(ut) )·d[R] ==> [At][ t >] (1/u) ==> T(t) tiende a ser estática ]

Deducción:

Sea t = (1/u) ==>

d[ d[T(t)] ] = ( d[q]+(-1)·d[q] )·d[R]

T(t) = d[q]·R

sum[n = 1]-[oo][ T(t_{n}) ] = qR