Enthalpy (ΔΗ)

Enthalpy (ΔΗ) is a thermodynamic property 

representing the total heat content of a system.

 It is the sum of a system's 

contained energy Δμ

 and 

the product of its pressure ΔΡ

and 

volume Δν 

: ΔH = μ+PV

Because αΛΛ

 cΗ~emical and pH~ysical processes

 occur at real temperature

relative to real atmospheric pressure, 

Relative to 

the weight of a column of

H2O

where one cubic foot = 62.4 pounds

~

a 33 foot tall column of 

a square foot base 

of H2O weighs

~

2100 pounds 

of

So Called

At most spHere IC 

Pressure

Enthalpy change ΔΕΗ 

Quantifies  heat 

absorbed or released 

during a process at 

consistent pressure 

Constantly changing

Due to proton electron 

Interaction

What enthalpy tells us:

 Exothermic vs

 Endothermic 

                 Action/Re~actions: 

The change in enthalpy is the key

And indicates whether a 

re~action 

re~leases

 or

 re~absorbs

 heat

Exothermic reactions ΔΗ < 0 : 

The system Re~Leases heat energy

 to the surrounding 

atmosphere contained

Volume and the volume containing 

Volume container generally made of

Oxidated something with H colored

Hydrogen electrons hanging in the 

Breeze when it is not showing its

Protonated collective proto electro

Massive idea of electromass the mass

Now replacing Xmass as 

the mass to be attending 

every Mass C~ΨΕΛΣβΓΑΤΙΝG

Moment about to arrive circum polar

ΛΥ

The oxidated products after releasing 

Heat energy relative to the containment have

 a lower enthalpy than the original re~actants.

Mass is then :.: Re~measured as :..

(+) motion of (-)(-)electron volts was imaginarily converted into the names

Heat

Light

Concentric spheres of 

Wave ~ (-) formed Energy

Measured in imagined electron volts

As C 

ΑΓΕΑ Ξ [ΓΑΔΙΘΣ squared] X π

At the Σ = μ ς^2 rated rate given C = 186624

As C = √Σ / μ   miles / second

186624 =  72X√ν / (1/10)

2592 = √ν

Where ν ακα Νμ are multiples of 

6 X 8 X 10 X 11 = 5280 ~ 72.6636^2

~ 72 x 73.334

Endothermic reactions  : ΔΗ > 0

The system absorbs heat

 from all reactants

Active/Passive

Electron/Proton containers 

the containment ~ at most sphere O/I

the container ~ the cone centric membrane 

the contained ~ the volume formed area

the form ~ the geometry

the radius ~ amplitude

the frequency ~ circus^2 = membrane area

the wave ~ volume contained by membrane

The products have a higher enthalpy than the reactants.

A state function: Enthalpy is a state function,

 which means the change in enthalpy

 Δ Η 

depends only on the initial and final states of the system,

 not on the path taken to get there.

 This allows chemists to use Hess's Law

Hess's Law

 states that the total enthalpy change (ΔH)

 for a chemical reaction is the same

 regardless of how many steps or stages

 the reaction takes to complete,

 provided 

the initial and

 final conditions 

are identical. 

This law is a practical application 

of the concept of enthalpy as a state function 

and allows chemists to

 calculate the enthalpy change 

for reactions that are difficult or impossible to measure

 directly 

by summing the enthalpy changes of individual reaction steps.

 to calculate the enthalpy change of a reaction,

 even if it cannot be measured directly. 

By A different process ideA

SUCH AS

A Markovian stochastic process, or Markov process, 

a process where 

the probability of future states 

depends only on the current state, 

not on the entire history of past states.

 This defining characteristic 

is known as the Markov property or

 the "memoryless" property.

 In essence, the process "forgets" 

its past once it knows its present situation.

Where forgets is 

dissociates