Question:

Acacia for IBS problems?

okay, so i have a problem with gas,and im almost positive it's from IBS.when i tell my mom, she doesnt think its a quot;conditionquot;, but rather the foods i eat, even when i hardly eat or drink anything all day.and the gas comes out uncontrollably,so i was wondering how to get rid of it?i read that the supplement acacia can be taken daily and help, but i want to know if its true before i waste the time.i SERIOUSLY need to get rid of the gas,it is really embarrassing.

Answer:

Acacia powder stabilizes intestinal contractions and relieves the cramping and abdominal pain associated with IBSThe soluble fiber can soothe bowel motility, meaning that it can treat both constipation and diarrheaMost people tolerate acacia well and it has no reported side-effectsIt can simply be mixed with water and has no added sugars, gluten or yeast.
An atmosphere has mass, Britannica says Earths is 5.5 quadrillion tons, All that mass has the ability to absorb heat whether by conduction, convection or radiation, we know this is a fact, because we can measure the temperature of the air, if it didn't absorb heat our air temp would be the same as outer spaceNow in absorbing that heat it slows down radiation to space warming the EarthThat makes it pretty obvious to me that an atmosphere of any kind of gas will act as a blanketHow much cooler would Earth be without GHG's, I don't know, cooler yes but I doubt 33C cooler.
No, at least not significantlyYou'd need extreme differences in topographyWhen pressure decreases at night (when it's dark out), water vapor will want to evaporate more readily than during high pressure, since the bonds keeping water molecules together will become weaker, so it will keep temperatures warmer at night.
Pressure broadens out the width of the infrared absorption lines from greenhouse gasses, and so does contribute to global warming by making a greater range of wavelengths opaque with the same amount of gasThis is physics that has been well understood for decades.
The greenhouse effect depends on the mean free path for infrared photonsA planet radiates at the altitude where the mean free path gets very large at a temperature characteristic of that layerThe temperature decreases with altitude and the emitted power is proportional to T^4 (Stefan Boltzmann)Lower T means less energy escapes and more energy goes into the kinetic energy (temperature) of molecules at lower altitudesThe effect of increasing pressure is to broaden spectral lines (Gaussian), increase absorption and reduce the photon mean free pathThat is increasing pressure will move the emission to space to a higher altitude (lower temperature) and increase the retained energyAlso note that molecular collisions (more frequent at higher pressure) induce dipole moments in gasses which would otherwise not absorb (ie N2 and O2, even He can be made to absorb a bit at high pressure)The heat capacity has nothing to do with the equilibrium temperature, but has a very big influence on how quickly the temperature can change.

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