The standard concentration of NaOH is typically 1.0 M for laboratory use.
The Na concentration gradient in the proximal tubule is created by Na+/K+-ATPase pumps on the basolateral membrane actively pumping Na+ out of the cell, generating a low intracellular Na+ concentration. This drives passive reabsorption of Na+ from the lumen of the tubule into the cell down its electrochemical gradient.
Na+OH-(s) --> Na+(aq) + OH-(aq)
It increases the concentration of OH - in a solution.
The concentration of OH- decreases as the concentration of H+ increases. This is beacause there is an equilibrium H2O <-> H+ + OH- and therefore the [H+][OH-] is a constant
There is a greater concentration of Na plus outside and there is a greater concentration of K plus inside the cell. When the stimulus is delivered, the permeability of the membrane is changed, and Na plus diffuses into the cell, initiating the depolarization of the membrane.
When NaOH is added to water, it dissociates into Na+ and OH- ions. The increase in hydrogen concentration is due to the OH- ions reacting with water to form more H2O molecules, shifting the equilibrium towards formation of additional H+ ions. This suggests that NaOH is a strong base that can increase the hydrogen ion concentration in a solution.
The concentration of H+ ions in a solution determines its acidity; the higher the concentration of H+ ions, the lower the pH. The concentration of OH- ions in a solution determines its alkalinity; the higher the concentration of OH- ions, the higher the pH. pH is a logarithmic scale that represents the concentration of H+ ions in a solution.
The atomic weight of Na-OH is 23+16+1= 40. So to prepare the one N solution of Na-OH, you need to add 40 grams of Na-OH in one litre of water. To prepare the 4N Na-OH solution, you need to add 160 grams of Na-OH in one litre of water.
The lyrics I found to " Can't nobody" are by Kelly Rowland and the lyrics are: TRYING TO LET YOU KNOW WHAT IT'S ALL ABOUT I KNOW YOU WANNA LEAVE SO MANY LITTLE GAMES SILLY PEOPLE PLAY DON'T ACT FOOLISHLY I'M SO REAL, SO SOFT TO TOUCH MY LOVE MY KISS SO SWEET MY SWEET CARESS THE LOOK ON YOUR FACE ANYONE CAN SEE NO ONE DOES IT LIKE ME OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY DO IT LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH AND GET RIGHT DOWN TO IT LIKE ME. OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY LOVE YOU LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, NA NA NA NA NA NA NA NA (HEY!) I KNEW YOU'D BE THE ONE TO RUN OUT YA MOUTH I NEED YOU PLEASE TO RELAX I KNOW I MESSED UP BUT IF YOU LEAVE ME NOW AIN'T NO COMING BACK, NO MORE NO ME NO YOU NO US NO KISS NO HUGS, TELL THE TRUTH SEE I'M THE ONLY ONE THAT CAN LOVE YOU BABE, YOU'RE NOT THAT BIG A FOOL OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY DO IT LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH AND GET RIGHT DOWN TO IT LIKE ME. OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY LOVE YOU LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, NA NA NA NA NA NA NA NA CAN'T NO-ONES BUT ME DO THE THINGS THAT I DO TO YOU THE THINGS THAT I DO TO YOU CAN'T NO-ONES BUT ME DO THE THINGS THAT I DO TO YOU THE THINGS THAT I DO TO YOU OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY DO IT LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH AND GET RIGHT DOWN TO IT LIKE ME. OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY LOVE YOU LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, NA NA NA NA NA NA NA NA OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY DO IT LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH AND GET RIGHT DOWN TO IT LIKE ME. OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY LOVE YOU LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, NA NA NA NA NA NA NA NA (HEY!... NO, NO) NA NA NA NA NA NA NA NA OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY DO IT LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH AND GET RIGHT DOWN TO IT LIKE ME. OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, OH NO, CAN'T NOBODY LOVE YOU LIKE ME, OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, UH UH, NA NA NA NA NA NA NA NA OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, (CAN'T NO-ONES BUT ME DO) UH UH, OH NO, CAN'T NOBODY DO IT LIKE ME, (THE THINGS THAT I DO TO YOU) OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, (THE THINGS THAT I DO TO YOU) UH UH AND GET RIGHT DOWN TO IT LIKE ME. OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, (CAN'T NO-ONES BUT ME DO) UH UH, OH NO, CAN'T NOBODY LOVE YOU LIKE ME, (THE THINGS THAT I DO TO YOU) OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, (THE THINGS THAT I DO TO YOU) UH UH, NA NA NA NA NA NA NA NA OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, (CAN'T NO-ONES BUT ME DO) UH UH, OH NO, CAN'T NOBODY DO IT LIKE ME, (THE THINGS THAT I DO TO YOU) OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, (THE THINGS THAT I DO TO YOU) UH UH AND GET RIGHT DOWN TO IT LIKE ME. OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, (CAN'T NO-ONES BUT ME DO) UH UH, OH NO, CAN'T NOBODY LOVE YOU LIKE ME, (THE THINGS THAT I DO TO YOU) OH NO, OH NO, CAN'T NOBODY DO IT LIKE ME, (THE THINGS THAT I DO TO YOU) UH UH, NA NA NA NA NA NA NA NA Hope that helps you:)
Well the point of a solution is that any solids involved are dissolved. Otherwise there is never any chance of having a homogenous solution (equal concentration, anywhere in the volumetric flask)
The concentration of Na ion that remains in solution after the reaction is complete is determined by the stoichiometry of the reaction and the initial concentration of Na ions.
Its the Kasier Chiefs Naa Naa Naa =]
In a 0.25M solution of NaOH, the concentration of hydroxide ions (OH-) is also 0.25M. This is because NaOH dissociates completely in water to form Na+ and OH- ions. OH- represents the hydroxide ion in solution.
It isn't a Na OH.
what song does soulja boy sing that says oh na na
The Na concentration gradient in the proximal tubule is created by Na+/K+-ATPase pumps on the basolateral membrane actively pumping Na+ out of the cell, generating a low intracellular Na+ concentration. This drives passive reabsorption of Na+ from the lumen of the tubule into the cell down its electrochemical gradient.
Whats my name!