Comparing E504 - Magnesium carbonates vs E536 - Potassium ferrocyanide

Overview

E504 - Magnesium carbonates

Magnesium carbonates (E504) are mineral-based additives that help powdered foods flow and mix evenly. They act mainly as anti-caking agents and carriers, and sometimes as mild acidity regulators. You may spot them in table salt, spice mixes, powdered drinks, and chewing gum.

READ MORE >>

E536 - Potassium ferrocyanide

Potassium ferrocyanide (E536) is an anti-caking agent most often added to table salt so it pours easily. Despite the word “cyanide” in its name, it is a stable iron–cyanide complex that does not release cyanide under normal food conditions.

READ MORE >>
Synonyms
E504
Magnesium carbonates
E536
Potassium ferrocyanide
Yellow prussiate of potash
Functions
acidity regulatoranticaking agentcarrier
anticaking agent
Origins
Synthetic
Mineral
Synthetic
Products

Found in 17 products

Found in 1 products

Search rank & volume
#393160 / mo🇺🇸U.S.
#288910 / mo🇺🇸U.S.
Awareness score

×1.29
over-aware

×23.00
over-aware

Search volume over time

Search history data is not available.

Interest over time for 3 keywords in U.S. during the last 10 years.

Read more about E504Read more
Read more about E536Read more
Popular questions

  1. What category is e504 in ruby princess?

    In food additives, E504 is magnesium carbonates, classified mainly as a carrier and also used as an anti-caking and acidity-regulating/rising agent.

  2. What year is a tree farmer skidder serial number e504-019?

    That serial number isn’t related to the food additive; in food labeling, E504 refers to magnesium carbonates used as a carrier/anti-caking/acidity regulator.

  3. Why take calcium and magnesium carbonates?

    They are used as antacids to neutralize stomach acid and as mineral supplements to provide calcium and magnesium; in foods they also serve as acidity regulators and anti-caking agents.

READ MORE ABOUT E504READ MORE >>

  1. How to make potassium ferrocyanide?

    It’s produced industrially from iron salts and cyanide chemistry under tightly controlled conditions; do not attempt to synthesize it yourself, and only food‑grade E536 from reputable suppliers is suitable for food use.

  2. How could one ingest potassium ferrocyanide?

    You don’t ingest it directly; when permitted, it’s present only in trace amounts as an anticaking agent in table salt (e.g., EU max 20 mg/kg salt), and normal dietary exposure via salt is considered safe.

  3. How many grams of potassium ferrocyanide must be used to prepare 800.0ml of 6.00m solution?

    A 6.00 M aqueous solution is not practically achievable due to solubility limits; in theory it would require about 2.03 kg of K4[Fe(CN)6]·3H2O for 0.800 L, which far exceeds what will dissolve.

  4. How to dry potassium ferrocyanide?

    Do not heat it to “dry” it—E536 is typically used as the trihydrate, and heating can decompose it and release toxic gases; for food use, simply store the sealed container in a dry place.

  5. How to make .5m potassium ferrocyanide?

    Using the common trihydrate, 0.5 M corresponds to about 211 g per liter of solution; this is a laboratory preparation and not a food‑use practice, so it should only be done with appropriate lab controls and PPE.

READ MORE ABOUT E536READ MORE >>