Tag Archives: lemons

Post 150: Choice Chronicles of the Chronicle Flask

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From citric to hydrofluoric, acids are an ever-popular topic

I began this blog in 2013, and since then I’ve written at least one post a month. This will be the 150th.

I put love and care into all my posts and, in turn, this blog has been good to me. Although no one’s ever paid me to write it, it has brought me work over the years – many people have asked me to write for them having read things here. But life is busier now than it’s ever been, and it’s time to wind things down. You’ll continue to find my non-fiction here and there, I’ll still be regularly updating my fiction blog, and if you want the latest info, look me up on Twitter. In particular, check out the #272sci hashtag for tiny bits of bite-sized science.

In the meantime, how about a little reminder of some of this blog’s most popular, most important, or just my favourite, posts? Let’s go!

The acid that really does eat through everything (2013)
Turns out, everyone loves acid – this post is one of my all-time most viewed. I guess there’s just something compelling about substances that can dissolve metal, and this one is particular special (and terrifying) for its ability to also dissolve glass and ceramic. (Oh, and sorry about the double spaces after the full stops. It was a long time ago. I know better now.)

Butyric acid, a very smelly molecule (2014)
On the subject of acids, this has been another popular post. I suppose if there’s anything more fun than an acid that eats through the bottle you’re trying to store it in, it’s an acid that smells of Parmesan and vomit. Seriously, it is an interesting one: we’re all familiar with the smell of ethanoic acid (aka acetic acid, found in vinegar), and propanoic acid (propionic acid) merely smells a bit sweaty, but add one more carbon and, hoo boy, you have an utterly revolting stench that some people are so sensitive to they can still detect it weeks, even months, after cleaning.

It’s important to understand what sugar actually is if you want to reduce your intake

Sugar that’s not sugar? (2015)
People talk a lot of nonsense about sugar. A particular pet hate of mine is people calling products sugar-free when they’re nothing of the sort, or implying that the type of sugary ingredient they’ve put in the thing they’re trying to sell you is somehow extra-healthy. If actually reducing your sugar intake is your goal (and it’s not a terrible one), this piece might help.

MMS and CD chemistry – the facts (2016)
This is my simple explainer about MMS (‘miracle’ or ‘master’ mineral solution) and CD (chlorine dioxide). This horrible, nasty fad seems to have faded away in recent years – partly thanks to the fact that even its founder, Jim Humble, admitted it cures nothing – but then again, I have seen CD-MMS linked to pseudoscientific Covid ‘cures’. Let’s hope this post continues to do its job as a useful reference for anyone that needs it.

Absurd alkaline ideas – history, horror and jail time (2017)
Continuing the theme of health, I’ve written several posts about so-called ‘alkaline’ diets, and this isn’t the most popular (that would be Amazing Alkaline Lemons?) but this is the one I wish more people would read. It explains where the whole silly notion came from in the first place. (As does this Twitter thread, slightly more succinctly.)

There really is no need to panic about slime

No need for slime panic: it’s not going to poison anyone (2018)
I’ve yet to meet a child who doesn’t love slime, and every now and then the gooey stuff becomes so popular that we start to see scare stories. So it was in 2018. However, with a few sensible precautions, slime really isn’t dangerous. It’s all explained here.

Let’s speed up the rate at which we recognise our female chemists (2019)
This one was all about the little-known Elizabeth Fulhame. She was the first chemist to describe catalytic reactions – in 1794, when the more famous Berzelius was a mere teenager. Let’s remember her name.

Chemical connections: dexamethasone, hydroxychloroquine and rheumatoid arthritis (2020)
Covid hit us in 2020, and it would prompt more than one post – including this one when dexamethasone had its moment in the spotlight. Probably an unfamiliar drug to most people before this point, dexamethasone was one of the first practical treatments for rheumatoid arthritis in the mid-20th century. Unlike some other much-hyped treatments, we have solid evidence for the effectiveness of this medicine – although it is really only useful for people suffering with very severe symptoms. Still, it’s pretty cool that an old drug turned out to be such a useful tool in a modern pandemic.

There’s chemistry in your skin

Sunshine, skin chemistry, and vitamin D (2020)
To make it a nice, round ten, I’ll sneak in another 2020 post. This one is all about vitamin D. A lot of people are very critical of supplements, and while I understand their position, this particular case is slightly different. If you live in certain parts of the world, you really, really should be considering vitamin D supplementation for at least part of the year, and this post will tell you why.

Brilliant Bee Chemistry! (2021)
This one wasn’t so long ago, but I love it. Bees are fascinating creatures, and if you don’t know what the connection between bees and bananas is, you ought to have a read.

So, this is it, folks – thank you, it’s been fun! Happy New Year!

Content is © Kat Day 2022. You may share or link to anything here, but you must reference this site if you do. You can still support my writing my buying a super-handy Pocket Chemist from Genius Lab Gear using the code FLASK15 at checkout (you’ll get a discount, too!) or by buying me a coffee – just hit this button:
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Alkaline water: if you like it, why not make your own?

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Me* reading the comments section on the Amazing Alkaline Lemons post (*not actually me)

Alkaline water seems to be a trend at the moment. Not quite so much in the UK, yet, but more so in the US where it appears you can buy nicely-packaged bottles with the numbers like 8 and 9.5 printed in large, blue letters on their sides.

It’s rather inexplicable, because drinking slightly alkaline water does literally NOTHING for your health. You have a stomach full of approximately 1 M hydrochloric acid (and some other stuff) which has an acidic pH of somewhere between 1.5 and 3.5. This is entirely natural and normal – it’s there to kill any bugs that might be present in your food.

Chugging expensive water with an alkaline pH of around 9 will neutralise a bit of that stomach acid (bringing the pH closer to a neutral value of 7), and that’s all it will do. A stronger effect could be achieved with an antacid tablet (why isn’t it antiacid? I’ve never understood that) costing around 5p. Either way, the effect is temporary: your stomach wall contains special cells which secrete hydrochloric acid. All you’re doing by drinking or eating alkaline substances is keeping them busy.

(By the way, I’m not recommending popping antacids like sweeties – it could make you ill with something called milk-alkali syndrome, which can lead to kidney failure.)

Recently, a video did the rounds of a woman testing various bottled waters, declaring the ones with slightly acidic pHs to be “trash” and expressing surprise that several brands, including Evian, were pH neutral. The horror. (For anyone unsure, we EXPECT water to have a neutral pH.)

Such tests are ridiculous for lots of reasons, not least because she had tiny amounts of water in little iddy-biddy cups. Who knows how long they’d been sitting around, but if it was any length of time they could well have absorbed some atmospheric carbon dioxide. Carbon dioxide is very soluble, and it forms carbonic acid when it dissolves in water which, yes, would lower the pH.

Anyway, there’s absolutely nothing harmful about drinking water containing traces of acid. It doesn’t mean the water is bad. In fact, if you use an ion exchange filter (as found in, say, Brita filter jugs) it actually replaces calcium ions in the water with hydrogen ions. For any non-chemists reading this: calcium ions are the little sods that cause your kettle to become covered in white scale (I’m simplifying a bit). Hydrogen ions make things acidic. In short, less calcium ions means less descaling, but the slight increase in hydrogen ions means a lower pH.

So, filtered water from such jugs tends to be slightly acidic. Brita don’t advertise this fact heavily, funnily enough, but it’s true. As it happens, I own such a filter, because I live in an area where the water is so hard you can practically use it to write on blackboards. After I bought my third kettle, second coffee machine and bazillionth bottle of descaler, I decided it would be cheaper to use filtered water.

I also have universal indicator strips, because the internet is awesome (when I was a kid you couldn’t, easily, get this stuff without buying a full chemistry set or, ahem, knowing someone who knew someone – now three clicks and it’s yours in under 48 hours).

The pH of water that’s been through a (modern) ion-exchange filter tends to be slightly acidic.

The water in the glass was filtered using my Brita water filter and tested immediately. You can see it has a pH of about 5. The water straight from the tap, for reference, has a pH of about 7 (see the image below, left-hand glass).

The woman in the YouTube video would be throwing her Brita in the trash right now and jumping up and down on it.

So, alkaline water is pretty pointless from a health point of view (and don’t even start on the whole alkaline diet thing) but, what if you LIKE it?

Stranger things have happened. People acquire tastes for things. I’m happy to accept that some people might actually like the taste of water with a slightly alkaline pH. And if that’s you, do you need to spend many pounds/dollars/insert-currency-of-choice-here on expensive bottled water with an alkaline pH?

Even more outlandishly, is it worth spending £1799.00 on an “AlkaViva Vesta H2 Water Ionizer” to produce water with a pH of 9.5? (This gizmo also claims to somehow put “molecular hydrogen” into your water, and I suppose it might, but only very temporarily: unlike carbon dioxide, hydrogen is very insoluble. Also, I’m a bit worried that machine might explode.)

Fear not, I am here to save your pennies! You do not need to buy special bottled water, and you DEFINITELY don’t need a machine costing £1.8k (I mean, really?) No, all you need is a tub of….

… baking soda!

Yep, good old sodium bicarbonate, also known as sodium hydrogencarbonate, bicarb, or NaHCO3. You can buy a 200 g tub for a pound or so, and that will make you litres and litres and litres of alkaline water. Best of all, it’s MADE for baking, so you know it’s food grade and therefore safe to eat (within reason, don’t eat the entire tub in one go).

All you need to do is add about a quarter of a teaspoon of aforementioned baking soda to a large glass of water and stir. It dissolves fairly easily. And that’s it – alkaline water for pennies!

Me* unconvinced by the flavour of alkaline water (*actually me).

Fair warning, if you drink a lot of this it might give you a bit of gas: once the bicarb hits your stomach acid it will react to form carbon dioxide – but it’s unlikely to be worse than drinking a fizzy drink. It also contains sodium, so if you’ve been told to watch your sodium intake, don’t do this.

If I had fewer scruples I’d set up shop selling “dehydrated alkaline water, just add water”.

Sigh. I’ll never be rich.

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Words of woo: what does ‘alkalise’ mean?

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220px-Marketvegetables

‘alkaline’ diets usually revolve around eating lots of fruit and vegetables – no bad thing, but it won’t change your body’s pH

If you hang around in the unscientific chunks of the internet for any length of time, as I find myself doing from time to time, you start to come across certain words that get used over and over. They are usually words that sound very sciency, and they’re being used to make things sound legitimate when, if we’re honest, they’re really not.

One such word is ‘alkalise’ (or ‘alkalize’). I’ve met it often ever since I wrote my post ‘Amazing alkaline lemons?‘. So, what does this word mean?

Good question. Google it, and at least the first three pages of links are about diets and how to ‘alkalise your body’ featuring such pithy lines as:

“It’s not really a diet… it’s a way of eating” (is there a difference?)
“Alkalise or live a life of misery” (gosh)
“Alkalise or die” (blimey)
“Alkaline water” (apparently this is a thing)
“Why it’s important to alkalise your water” (using our overpriced products)

In fact, I had to click through several pages of Google links before I even got to something that was simply a definition. (I’m aware that Google personalises its search results, so if you try this yourself you might have a different experience.) Certainly, there are no legitimate chemistry, biochemistry – or anything else like that – articles in sight.

Hunt specifically for a definition and you get turn basic and less acidic; “the solution alkalized”‘ (The Free Dictionary), to make or become alkaline. (Dictionary.com) and, simply, ‘to make alkaline’ (Collins).

Universal_indicator_paper

pH 7 is neutral, more than 7 is basic

The first of these is interesting, because it refers to ‘basic’. Now, as I’ve explained in another post, bases and alkalis are not quite the same thing. In chemistry a base is, in simple terms, anything that can neutralise an acid. Alkalis, on the other hand, are a small subset of this group of compounds: specifically the soluble, basic, ionic salts of alkali metals or alkaline earth metals.

Since there are only six alkali metals (only five that are stable) and only six alkaline earth metals (the last of which is radium – probably best you steer clear of radium compounds) there are a rather limited number of alkalis, namely: lithium hydroxide, sodium hydroxide, potassium hydroxide, rubidium hydroxide, caesium hydroxide, beryllium hydroxide, magnesium hydroxide, calcium hydroxide, strontium hydroxide, barium hydroxide and radium hydroxide. There you go. That’s it. That’s all of them. (Okay, yes, under the ‘soluble in water’ definition we could also include ammonium hydroxide, formed by dissolving the base, ammonia, in water – that opens up a few more.)

This, you see, is why real chemists tend not to use the term ‘alkalise’ very often. Because, unless the thing you’re starting with does actually form one of these hydroxides (there are some examples, mostly involving construction materials), it’s a little bit lead-into-gold-y, and chemists hate that. The whole not changing one element into another thing (barring nuclear reactions, obviously) is quite fundamental to chemistry. That’s why your chemistry teacher spent hours forcing you to balance equations at school.

No, the relevant chemistry word is ‘basify‘. This is such a little-known word that even my spell checker complains, but it’s just the opposite of the slightly better-known ‘acidify’ – in other words, basify means to raise the pH of something by adding something basic to it. Google ‘basify’ and you get a very different result to that from ‘alkalise’. The first several links are dictionary definitions and grammar references, and after that it quickly gets into proper chemistry (although I did spot one that said ‘how to basify your urine’ – sigh).

What does all this mean? Well, if you see someone using the word “alkalising” it should raise red flags. I’d suggest that unless they’re about to go on to discuss cement (calcium hydroxide is an important ingredient in construction materials) cocoa production or, possibly, certain paint pigments, then you can probably write off the next few things they say as total nonsense. If they’re not discussing one of the above topics, the chances are good that what they actually know about chemistry could safely fit on the back of a postage stamp, with space to spare, so nod, smile and make your escape.

For the record, you absolutely don’t need to alkalise your diet. Or your urine*. Really. You don’t.

And please don’t waste your money on alkaline water.

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Lemon

There’s no good evidence that drinking lemon juice has a significant impact on urine pH.

* In the event that you actually have problematically acidic urine, perhaps due to some medical condition, there are proven treatments that will neutralise it (i.e. take it to around pH 7, which is the pH urine ought to be, roughly). In particular, sodium citrate powder can be dissolved in water to form a drinkable solution. Of course, if this is due to an infection you should see a doctor: you might need antibiotics – urinary tract infections can turn nasty. Yes, I am aware that the salt of the (citric) acid in lemons is sodium citrate, however there is no good evidence that drinking lemon juice actually raises urine pH by a significant amount. And yes, I’m also aware that dietary intake of citrate is known to inhibit the formation of calcium oxalate and calcium phosphate kidney stones, but that’s a whole other thing. If you have kidney stones there are a number of dietary considerations to make, not least of which might be to cut down on your consumption of certain fruits and vegetables such as strawberries and spinach (and ironically, if you look at some of the – entirely unscientific – lists of acid-forming and alkali-forming foods these are almost always on the alkaline side).