I love gardening and chemistry so this video was like an early birthday present for me! I saw this video first so now I'm off to watch the one you recommended at the end. Thank you so much!

Thanks for pointing out the obvious we all overlooked. Now it’s time for me to watch your other videos.

I personally appreciate learning what's true vs what's easy to understand. Knowledge is power, and knowledge builds upon itself. The more you more, the more you will know.
Thank you for providing factual info.

Just came across your video and have to admit that I was surprised that all those prestigious companies and especially universities are getting it so wrong. An excellent explanation and the net figures are spot on. Happy that I watched the video. Thank you.

Very informative video. Thank you for the clarification of the numbers. Knowing the difference is so beneficial. Chemistry is important too. I recently found out that using dolomite garden lime can be detrimental to calcium absorption in tomato and pepper plants. A home gardener who has a Ph.D. in Genetics and Plant Breeding mentioned using calcium nitrate for his tomatoes and pepper plants. I asked him about BER, blossom end rot, and mentioned what amendments I use in my homemade potting mix, which dolomite lime was one of them to reduce the acidity of peat moss. His reply was that dolomitic lime contains magnesium. Mg is a metal similar to calcium but has a stronger charge than calcium. It can replace the calcium and cause BER. I am going to add calcium nitrate to my tomato and pepper plants to see if it will help with BER.

Whoa! I didnt even think about it like that! 🤩
But I do have a question:
This is greatly assuming that the proportions of the NPK containing molecules are all equal in the fertilizer, e.g. a 3lb bag of fertilizer contains 1lb of N containing molecules, 1lb P containing molecules and so on.
So here's my question:
Do fertilizer companies not balance the NPK molecules so that their product can reflect the NPK numbers they claim?

Well well 5 10 10 etc they are best understood as proportions of compound rather than elemental weight

Absolutely love your channel! Your presentation reminds me of my botany professor from years ago. Sharing and liking thank you,

This is why if you keep fish using your water change on your plants is so helpful. All the bad stuff in your tank is great stuff in your garden or potted plants.

WHY does the first number in the ratio refer to just pure Nitrogen rather than the compound it is supplied as, like with the other two numbers? Is there any reasoning behind this?

Thank you I'm trying to give myself a college level of understanding this process through all the input I can get on the internet it's good to get correct information 👍

Really good information. Really knowledgeable and clearly explained. Thank you

Have used 10-10-10 all my life in my vegetable garden, no issues so far. No soil test done either.

This is a great video. I have been trying to understand plants more and this helped a ton. Extremely clear and simple.
I'm sure others have pointed it out but at 4:23 you said phosphorus but you meant potassium. I mix them up when I talk all the time.

Keeping it real! Love this dude.

Pavlis knows what he is talking about. Thank you Sir.

The country where I live has a regulation that fertilizer "grading", or labelling, must include the concentration of elemental NPK in an additional number in brackets after the ratio.
For example 3:1:5 (18), which would mean 18% of the product weight is pure NPK.
In the above example 1kg fertilizer would have 180g pure elemental NPK, which is divided into 9 parts (3+1+5). This means 1 part is 20g, which works out to 60g N (3 parts x 20g), 20g P (1 part x 20g) and 100g K (5 parts x 20g) per 1kg product.
Still takes some calculation, but at least the average person is able to work it out without needing to know the molar masses or atomic weights of compounds and elements.
This also help to gauge at a glance how "strong" the fertilizer is, a 3:1:5 (36) would be twice as concentrated as a 3:1:5 (18) and should be used in a halved dosage.

thank you for covering this, i learned this at A&M but completely forgot. that being said of course they didn't make a big deal about it as they should have and should be, most of those professors have the mentality of just replace the plant rather than really be able to save the plant. more money worse teaching apparently. but i digress.

When the Ag Extension Service says add X pounds of K per 1000 sq ft. is that the compound or adjusted number?

Why we don't correct Nitrogen too, since it is in form NO3 or NH4? Could you show us how you correct P and K? The mathematics?

Good video. I never knew this before. Thanks for enlightening me.

wow I wish I could attend a class like your videos... It is probably hard to assimilate with just viewing. This would have to be immersed completely to realize the benefits.

Thanks for clarifying.
The problem then becomes, since most people get soil tests through their extension agency, which is usually (always?) affiliated with universities such as the ones you called out as incorrectly explaining fertilizer content, should a gardener assume that their soil test recommendations use the terms "phosphorus" and "potassium" correctly? I suspect (but don't know for sure) that the recommendations continue to use the terms incorrectly, and so there's no need to do a conversion. It's truly unfortunate that these institutions haven't standardized this terminology.

Thank you so much this is key for my application of the info !

This convention varies with countries the US is as you say, some other countries use the direct elements This make it a nightmare buying fertilizers from abroad

In southern Florida, the soil is naturally high in phosphate. So I need a fertilizer of the form X-0-X. It is difficult to find a fertilizer that is not for lawns(high nitrogen) with zero phosphate. I am growing vegetables. I had to go online to find something close to what I need. I found 10-0-6 which is the best fit for my soil. This fertilizer is still called for lawn applications. Seems low in Nitrogen for lawns.

Nice information. Why the ratio of N is 10 % even used in the form of NO3 ion or NH4+ ion?

Interesting video (I enjoy the info you provide on your channel). I decided to ask Chat-GPT and it initially told me that the N-P-K were indeed weight percentages of those atoms. When I pressed for more, it responded as below. Now, Chat-GPT is often wrong, but I wonder what you think of this possible explanation?
I asked it: "Does the P actually represent phosphorus or phosphorus pentoxide? And does the potassium represent potassium or potash?"
Chat-GPT: "The P in the N-P-K ratio of fertilizers does indeed represent phosphorus, not phosphorus pentoxide. Similarly, the K represents potassium, not potash.
Phosphorus is a key nutrient for plant growth, particularly in terms of root development, flowering, and fruiting. In fertilizer labels, phosphorus is typically listed as P2O5 (phosphorus pentoxide) because historically, phosphorus was extracted from phosphate rock, which contains phosphorus in the form of phosphorus pentoxide. However, the P2O5 value is converted to its elemental form of phosphorus for the N-P-K ratio calculation. For example, a fertilizer with a label of 10-10-10 contains 10% elemental phosphorus.
Potassium, similarly, is an essential nutrient for plant growth, contributing to overall plant health, disease resistance, and stress tolerance. It is typically listed as K2O (potassium oxide) on fertilizer labels because it was historically extracted from potassium salts, which contain potassium in the form of potassium oxide. The K2O value is converted to its elemental form of potassium for the N-P-K ratio calculation."

This video is a very good introduction of pure inorganic chemistry to an understanding of fertilizer content. One might ask why to the fertilizer companies sell bags containing 10:10:10 in addition to bags containing 16:16:16, NPK

Hello, I have a query, what I can understand you are not calculating N value in molecular weight as it is already in N form, but, what if I have a fertilizer which has nitrogen in Nitrate (NO3-) or Ammonia (NH3) form, do I need to convert the N value then by the same method you have shown in this video? e.x. for Ammonia to get correct N value do I need to deduct molecular weight of 4 Hydrogen atoms from NH3 to get correct number of N value in Ammonia?

Fertilizer recommendations are often based on the industry standard which is K2O and P2O5 molecules you're referencing, not actual element measurements. If people follow your recommendation, they may over apply.

Hello just discovered your channel. I have already learned a great deal especially in relation to soil and fertilization. Your arguments have allowed myself to be open to the use of synthetic fertilizers where in the past I was primarily organic in my approach. While I do raise vegetables and flowers I am very interested in improving my lawn. Been investigating Jonathan Green products as they are readily available and their philosophy with respect to lawns is also a combination of both approaches with the eventual goal of mostly organic inputs. This seems in agreement with your approach as well. So I am wondering would you ever do an episode on the establishment, care and feeding of lawns?

So I just watched one of your video's saying never to buy 10-10-10 because we need 3-1-2 -- and based on this video, it sounds like 10-10-10 is not far off of that (if it's 10 - 4.4 - 8.3). Am I missing something?

What? No mention of Avogadro’s number?? 😅 Great video with great explanation! Thank you!

I would add that the same applies to Ca, Mg and S which are sometimes listed as CaO, MgO and SO3 and need to be re-calculated to Ca2+, Mg2+ and SO4-. It often happens with soluable fertilizers.

So I recall in another video uou say the ideal fertilizer ratio for plants is 3-1-2. Given the 10-10-10 is really close to the 3-1-2, is it ideal for plants as a general fertilizer? I’m a bit confused now.

build your soil with natural amendments and compost and you can forget about the chemistry. Cheers!

i think all that matters to consumers is to follow fertilization advice , if the packet says to use xyz then xyz is used .

You have an error at around 4:20. You were talking about potassium, but said "if you drop phosphorus into water it would burn". Phosphorus is stored in water to keep it from burning. But if potassium is dropped in water, it will release hydrogen from the water, combine with the freed oxygen to generate enough heat to ignite the hydrogen. FYI.
Otherwise, you did make a very good point about fertilized numbers. Thanks.

We write what we do for simplicity. And for over 100 years it has worked perfectly. Doing exactly what we ask of it. Why do we write it the way we do? Simple really. I will leave that response out so snowflakes don't get pissy. Here is all people need to know. We provide the ratio of utilizable nutrients per weight of the bag. Nothing more. Nothing nefarious.

Telling it like it is and it's the way I like it, thank you it makes me smile 😁

So what is the rest of the bag? 10-10-10 adds to be 30 percent. What about the rest or 70%? is it soil?

It's not that those publications don't know what they are doing, but that they use a convention that we need to be aware of. We aren't the only ones who have a clue.

Have you heard of REV? It is a company promoting an Omni approved liquid fertilizer. Wanted to know if it is a legitimate claim to the product.

Most states took the Middle ingredient out of Turf Fertilizer, that’s what keeps grass roots healthy. Now have bare spots, as the grass dies. County can Cite me for this, luckily so far they can’t fine me.

Thanks for the video. I really like what you present. At 2:42 you talk about N2. But it is made up of two nitrogen atoms, not two molecules. At 4:24 you don't want to talk about phosphorus, you want to talk about potassium.

you're saying not to use a balanced fertilizer but the video is about how 10-10-10 is more like 10-4.4-8 so isn't this close to what you want? assuming your soil needs all 3 or your soil tests show you don't already have too much of one and not the other? can you please clarify or do a video explaining what percents you do want, assuming your soil tests don't show a deficiency or surplus of one or the other

Thanks for this info. Happy growing from Detroit. 👍

I was told it’s the best for fruit trees ??? Is that true ???

In both cases the sum of the 3 percentages does not add up to 100, so what is the remaining percentage of fertilizer in the bag made up of?

I never assumed that these proportions reflected pure elements. Obviously it's the ratio of bioavailable compounds. That's why many bags clarify the content with with "as ammonia sulfate" or whatever chemical composite this element comes in. You are overthinking it. Looks almost like a clickbait to me.

Ik In ag soil test are calculated with the pounds adjust in there reconditions. I don’t think any of your examples are wrong they are just assuming ppl reading are familiar with this

4:55 - if you understand chemistry & chemical formulas, the punchline of the background knowledge comes in here. Very interesting!
As someone working off of a soil test on my own land this just helped me out. In cases of deficiencies, this surely leads people to think their fertilizer regimen isn't working when in reality they may not be applying enough, outside of Nitrogen.

I’m going to argue with the people at the garden center. Most of them are clueless.

BUT, arn't recommended application rates based upon the SAME understanding of the compounds proportions?

N2 is a gas at room temperature - so wouldn't nitrogen in fertilizer be stored as nitrate/ite N03-, urea CO(NH2)2, and/or ammonia NH3. Wouldn't that affect the actual weight of nitrogen in the fertilizer?

Now I get it, I was reading a label and something didn't figure. Or so I thought. The label said what he said if you really studied it. Probably why I was having a hard time getting to what the numbers on the label said it was.

What form of nitrogen is in 10-10-10 typically. If it’s in a nitrate form wouldn’t the first number be the ratio of the atomic weight of the Nitrogen and Oxygen or the other molecule components? Nitrogen doesn’t exist in solid form but as a gas as N2.

Makes perfect sense.

OK
Basically: 6:38
but are those completely bio available as such or are it just recalculated chemical equilibria
Thx

I’ve been using 10-10-10 at the start of the season to wake up my tttf and my lawn looks awesome. Don’t care what you think you know. When someone says everyone else is wrong and they are right I tend not to believe a word they say

That’s knowledge!

Thank you Mr. P. 🌺💚🙃

Why do we not convert the three different forms of Nitrogen % into the elemental form of N, like we do for P and K ?

I am not sure this is right. 10-10-10 means 10% of each. The rest 70% consist of the other substances mainly oxygen?

What's your thoughts of supersoilfertilizar

What an excellent video

10% is the percentage in the bag of Nitrogen. Divide bag weight by 10% to get actual weight of nitrogen. 10% of a 35 lb bag = 3.5 lds of PRODUCT containning 10% Nitrogen. A lawn needing 1 lb per 1000 sq feet a month needs 3.5 lbs of product per 1000 sq foot a month. Thanks for the explanation on the rest of the mix and how the other numbers are misleading.

Thank you Sir 🙏

Great video but still don't know how much to use.

Soil test result recommendations are written to the manufacturer’s labeling.
This is pi$$ on a fire hydrant

I also do not understand why Nitrogen is correct (10%) in spite of being in a molecule normally N03. (That is 10 kg N and >30 kg O because O is heavier than N )

But doesnt the "balanced" formula come pretty close to a NPK ratio of 3:1:2?

Robert's a sasquatch and myth buster.

just grabbed my mono phosphor fertilizer and its 0 - 17 - 0 but it contains 16,6% p2 o5

Hello question, what PH helps keep weeds away? 👍👍

if fertilizer is only made up of 22.7% of NPK what is the the other 77.3%?

I hate when marketing folks mess up with numbers despite what chemist and science are telling them.

A sack of potassium nitrate is 100% potassium nitrate. Its fertilizer rating is 13-0-46. Please explain.

Thank you

These screenshots says a lot about education system.

Brilliant!

Nice video. Thanks!

Makes sense to me the Earth knows what it needs to aid plants apart from water and sun ☀️. Companies play on your emotions.

I will never get the time spent watching this back.

Organic agriculture usually disdains the NPK numbers because they are a tool developed for chemical farming and agribusiness. Focus on soil tests suffers from the same disconnect. This all goes back to von Liebig and his materialist, reductionist paradigm. If you adopt a wholistic and balance-based paradigm, the whole discussion is moot.

While you’re correct, you’re splitting hairs and making it more complicated for the average user. When you get soil test results they are listed in units of P2O5 and K2O that are needed, thus why the fertilizer bags list them as such. The average person can use those numbers to easily apply what the soil test recommends. Don’t make it more complicated just to get views.

I have no idea 10 whats exactly but it doesnt say percent or pounds so its not. Its 10 thingys.

Aren’t you supposed to get a soil test done and then add what is needed? 🤔

Your website has a 503 error and cant be seen

he just pwned all the fertiliser companies and websites.

so what you just said is that a 2-2-2 is actually a 0-0-0

Interesting but hard to watch because of all the glitches in the video

This strikes me as overly pedantic for 99% of people applying fertilizer. The 10-10-10 meaning 10% of weight is a good enough approximation for anyone not measuring in Moles.

Unfortunately, most people don’t like chemistry and as soon as they passed (or failed) the exam, they wiped it out of their brains. The media, particular pepper journalists, are hilarious as they mansplain science to us, usually getting it 180° from the correct answer.

so basically what your saying is that the fertilizer we buy has what our plants need , because if they had the actual element , it would be bad , thanks for being over pedantic about it

It's still all the same in practice, just throw a little on and go

Just more over-thinking to an activity that is supposed to be enjoyable and relaxing. If gardening was really this complicated the human race would have gone extinct centuries ago.

Trust the SCIENCE!

Its the amount of nutrients that are readily available to the plants, not the total amount. This guy makes up his own rules.