Over the past 20 years, acetic acid has become a highly in-demand global commodity used in the chemical and food industries, among others. With a growth projection in the billions, measurements are important for this substance, so what is the molar mass of acetic acid?
The molar mass of acetic acid is 60.06 g/mol. Molar mass enables the conversion of the tiniest particles from atomic mass into a physical mass. Most commonly associated with vinegar, acetic acid poses both health benefits and risks. While primarily manufactured through conventional pathways, sustainable green production is on the rise.
This guide will clarify what a mole means, its relation to molar mass, and its significance in chemistry. You will discover what acetic acid exactly is, and where it is applied, and why its molar mass matters. Plus, you will gain insight into both its conventional and green production pathways.
What Is Molar Mass?
To make sense of molar mass, let us start with the chemistry basics. Chemists need a tool to quantify atoms and molecules to understand their interaction.
The mole concept enables the measurement of the tiniest particles, not visible to the naked eye nor measurable on a human scale, even in large quantities.
One mole, really just a quantity of something, always contains the same number of particles and is the equivalent of 6.022 × 1023.
This number in the mole is called Avogadro’s number. We recognize by the symbol NA, and it enables chemists to bridge the atomic world with physical mass, namely grams.
Molar mass, also known as molecular weight, is the mass in grams of one mole of a substance, indicated by g/mol.
The molar mass varies depending on the substance’s make-up and therefore produces different results on an atomic, molecular, and formula level. An example will help clarify this.
To calculate a substance’s molar mass, you will need to use the periodic table of elements. The molar mass of the atom of Oxygen (O) is 16 g/mol, as the periodic table indicates.
The molar mass of the molecule O2 is 2 x 16 g/mol = 32 g/mol. The molar mass of Hydrogen (H2O) is (2 x 1,008 g/mol) + 16 g/mol = 18.02 g/mol (source).
Each element is different, and to understand molar mass for each, you need to grasp the basics of molecular structure. To learn more about oxygen, read our helpful guide, “Is Oxygen O₂ or just O: Understanding the Molecular Structure of Oxygen.”
It’s essential to note that, although the values of molar mass and molecular weight are identical, we should not confuse molar mass with molecular mass.
Molecular mass measures the mass of one molecule in atomic mass units (amu), while molar mass looks at the mass of one mole measured in g/mol (source).
What Is the Molar Mass of Acetic Acid?
If we calculate the molar mass of acetic acid using the periodic table, we will arrive at 60.06 g/mol. Let’s break down the molecular formula of acetic acid step-by-step to show you how we arrive at this.
The molecular or chemical formula of acetic acid is CH₃COOH. Let’s start by writing down the molar mass of each individual element.
- The molar mass of carbon (C) is 12.01 g/mol
- The molar mass of hydrogen (H) is 1.008 g/mol
- The molar mass of oxygen (O) is 16 g/mol
To calculate the molar mass of acetic acid, we can simply write out the full molecular formula, CH₃COOH, in g/mol. Have a look at how we have done this below.
C H₃ C O O H
12.01 + (3 x 1.008) + 12.01 + 16 + 16 + 1.008 = 60.06 g/mol
The molar mass of acetic acid is an important yardstick to conduct experiments in chemistry. It enables the conversion of atomic mass into physical mass and ensures that the accurate amount is weighed out on a scale.
Plus, it enables the detection of levels of acetic acid in substances such as vinegar. This enables government agencies such as the United States Food and Drug Administration (FDA) to monitor these levels for public health purposes.
Acetic Acid vs. Vinegar
Acetic acid is not the same as vinegar, although many use the two terms interchangeably.
Instead, vinegar is a mixture of acetic acid and water. While the percentage of acetic acid ranges per finished product and geographical location, let’s take a closer look at what acetic acid actually is.
What is Acetic Acid?
Acetic acid is an organic compound that belongs to the widely occurring carboxylic acids organic compound class. It is a colorless liquid and contains antibacterial and antifungal properties. Other names are ethanoic acid, 64-19-7, and ethylic acid (source).
You’ll often see acetic acid referred to as glacial acetic acid due to its inclination to crystalize when it is cooled. It can burn organic tissue, such as skin, and doctors use it within the medical field to remove warts.
The majority of acetic acid produced today is synthetic, the result of chemical reactions, used mainly for commercial purposes.
Our bodies also produce small amounts of acetic acid, which plays a vital role in the body’s metabolism.
Scientists have discovered it in various organs, such as liver and kidney tissues. They have also found traces in fluids such as urine, saliva, and breastmilk (source).
Lastly, acetic acid is naturally produced in substances that contain sugar and/or alcohol, such as fruits, juices, wine, and beer.
The presence of acetobacter, a species of Acetic Acid Bacteria (AAB), enables a two-step fermentation process, known as aerobic glycolysis.
During this oxidative fermentation process, natural sugars convert into alcohol and subsequently into acetic acid. This oxidative fermentation process is most commonly used in the production of vinegar (source).
Commonly found in most modern households, vinegar holds a long and rich history.
Recorded vinegar production dates back as far as 200 BC, and the word is derived from the Frenchvin aigre, which translates to sour wine. We can make vinegar from almost any carbohydrate that can ferment (source).
The vinegar-making process is one of double fermentation, combining yeast and AAB.
A large variety of vinegar exists, but white vinegar is by far the most common, which is produced from alcohol distillation. Other varieties include apple cider vinegar, wine vinegar, balsamic vinegar, and rice vinegar (source).
The acetic acid within vinegar gives it its distinctive taste and odor. Most kinds of vinegar contain between four and five percent acetic acid. Too high of an acetic acid concentration produces a very bad-tasting vinegar (source).
Chemists can determine the concentration of acetic acid in vinegar through a process called titration. The term “grain strength” indicates 10 times the level of acetic acid concentration. For example, a vinegar with 4 percent acetic acid has a grain strength of 40 (source).
The medicinal use of vinegar to fight off infections and treat critical diseases dates back centuries. While still commonly used for treatments varying from ear infections to jellyfish stings and head lice, scientific evidence is not compelling (source).
The Versatile Applications of Acetic Acid
Acetic acid is a multi-application commodity that has seen exponential growth in demand over the years. Its application, both direct and indirect, can be found across industries, such as chemical, pharmaceutical, textile, cosmetics, and food.
From Chemical to Food Industry
Within the chemical industry, the most prominent usage of acetic acid is as a rubber substitute and in photographic and film chemicals. It can also be traced back to adhesives, plastics, latex paints, pesticides, insecticides, descalers, and rust removal products (source).
In the pharmaceutical industry, acetic acid can be found in antiseptic products due to its antibacterial properties.
It is generally present in a heavily diluted format, with most antiseptics containing as little as one percent of acetic acid.
Diluted acetic acid is used to treat infections in the ear canal, to clean bladders of catheter patients, and for visual inspection in cervical cancer screening (source).
In the textile industry, acetic acid is mainly used for dying purposes. In recent years, citric acid has become more present both for cost-reduction and environmental reasons, but not yet on a large industrial scale (source).
Acetic acid can be found in personal care products such as shampoos and conditioners. It can also be found in certain skincare products, as well as several types of mouthwash (source).
Apart from its presence in vinegar, acetic acid can be found as both an additive and preservative in many food products. Common pantry staples that include trace amounts of acetic acid are ketchup, dressings, mayonnaise, cheese, and sauces.
Health Risks and Benefits of Acetic Acid
Acetic acid is an extremely dangerous substance if not used in a controlled and safe environment. Exposure to these risks is greatest for those involved in the production processes of the chemical.
Aside from irritation to eyes, nose, and skin, acetic acid can cause severe damage to organs and result in life-threatening situations if one is overexposed.
Using Personal Protection Equipment (PPE) is essential when working with acetic acid in an undiluted format.
Despite the risks associated with the production process, the United States Food and Drug Administration (FDA) recognizes acetic acid as a generally safe substance in food. Along with good manufacturing practices and standards, it poses little to no risk (source).
Synthetic acetic acid did not use to traditionally occur in food products, but current legislation allows its presence in food as an additive.
While the impact of synthetic acetic acid and its by-products on health is largely unknown, a worrying trend has been the inability to trace its presence in food products.
While the FDA states that synthetic acetic acid does not pose a health risk, the limited effective rapid-test methods to detect degraded vinegar with synthetic acetic acid impacts fair trade negatively and could expose consumers to a potential array of dangers (source).
Acetic acid, predominantly in the form of apple cider vinegar, experienced a global boost in the health field during recent years.
Some of the bolder health claims regarding apple cider vinegar include drastic weight loss, controlling high blood pressure, and a cure for cancer.
While scientific evidence for sustained long-term weight loss is not convincing, there are signs that using apple cider vinegar aids blood sugar control. At the very least, it has a hand in keeping bacterial growth on your salads at a minimum (source).
Production Pathways of Acetic Acid
Due to its ever-increasing global demand, it is important to look at the manufacturing pathways of acetic acid. Acetic acid has both conventional manufacturing pathways as well as the more recent green production processes.
Conventional Manufacturing Practices
Many different conventional manufacturing practices exist, with some being chemical and others fermentative in nature.
The most common present-day efficient chemical method is known as the Cativa process. It involves the production of synthetic acetic acid through methanol carbonylation and was developed by the British Petroleum Company (BP) (source).
Other conventional chemical methods include acetaldehyde oxidation and hydrocarbon oxidation derived from petroleum stock.
Conventional fermentation processes are through wooden barrels, known as the Orleans method, the trickling process, and the continuous submerged process (source).
The conventional methods are complex, multi-layered, and capital and energy-intensive. Plus, chemical processes pose serious risks to the environment.
With soaring international demand, the calls for increased awareness of the impact of global warming on the environment have intensified in recent years, especially where it concerns green and sustainable production practices (source).
Green Production and Sustainability
A lot of new green techniques and processes have recently emerged. While applaudable, most have failed to reduce production costs and limit energy consumption.
One sustainable alternative proposes to use carbon monoxide (CO) and carbon dioxide (CO2) for the production of acetic acid (source).
While this approach certainly adheres to a green and sustainable production method of acetic acid, it battles to locate an effective catalyst due to the lack of chemical activity in carbon dioxide and methane (source).
Another promising green production method of acetic acid is membrane-based technology. This compression technology, also known as nanofiltration (NF), splits liquid depending on size and charge.
A positively charged membrane can recover organic acid and therefore offers a sustainable, low-energy, and bio-friendly solution (source).
Acetic acid is a global commodity with a remarkably versatile application across industries. Chemistry’s ability to quantify this adaptable substance through molar mass has left a significant mark on modern society.
It has led to lifesaving antiseptics, food and flavor enhancers through vinegar, and even filtered into the cosmetic field through items like hair products.
While very dangerous in an undiluted state, most diluted acetic acid found in food and other products poses little to no health risk. Health benefits, especially in the form of apple cider vinegar, are often overstated and carry little scientific proof.
The staggering demand for acetic acid has brought together a shift in manufacturing to achieve lower production costs and embrace environmentally friendly production methods. While conventional practices are still dominant, sustainable bio-friendly solutions are steadily gaining ground.
What Is the Molar Mass of Acetic Acid? ›
The molar mass of acetic acid (CH3COOH) is 60.05 g/mol.What is the molar mass for acetic acid? ›
Thus, the molar mass of acetic acid is. 05 g mol - 1 . Q. Conductivity of 0.00241 M acetic acid is 7.896×10−5Scm−1.What is the mass of acetic acid CH3COOH present in its 0.1 mole? ›
(Molar mass of CH3COOH = 60.06 g/ mol )What is the molar mass of acetic acid 60? ›
Acetic acid (molar mass 60 g/mol) dimerizes in benzene due to the presence of hydrogen bonding between its molecule hence the molecular weight becomes double than that of normal value. while Water prevents the association of acetic acid.What is the molar mass of Mg CH3COOH 2? ›
|Molar mass||142.394 (anhydrous) 214.455 (tetrahydrate)|
|Appearance||White hygroscopic crystals|
|Density||1.45 g/cm3 (tetrahydrate)|
Step by step solution by experts to help you in doubt clearance & scoring excellent marks in exams. At 298 K, 0.1 M solution of acetic acid is 1.34 % ionised .What is the mass of acetic acid in 1.00 L solution? ›
3. 1.00 L of solution contains 2.03 moles of acetic acid (HAc). 1.00L solution has a mass of 1017 g because the mass of 1.00 mL is 1.017 g.How do you find the mass of acetic acid in a solution? ›
Going back to moles, you can calculate the mass of acetic acid in the solution by multiplying the moles by the molar mass of the acetic acid ( 60.05gmol ). This will then be divided by the volume of the solution in mL.How do you find the molarity of acetic acid? ›
A: The molarity is the number of moles of acetic acid per liter of solution. We can calculate the number of moles of acetic acid as its mass divided by its molar mass. The volume of the solution equals its mass divided by its density.What is the mass of 0.5 mol acetic acid CH3COOH? ›
Hence, the mass of CH₃COOH present in 200 mL of 0.5 molar solution is 6 grams.
What is the mass of 25 mL of acetic acid? ›
Therefore, the mass of acetic acid is 0.0264 g.How do you make 1m acetic acid? ›
To make a 1 M solution of acetic acid, dissolve 60.05 g acetic acid in 500 mL distilled or deionized water in a 1-L volumetric flask. Because acetic acid is a liquid, the acid may also be measured by volume.What is 0.01 M acetic acid? ›
A 0.01 M solution of acetic acid is 1.34 % ionized (degree of dissociation = 0.0134 ) at 298 .How do you make 0.2 M acetic acid? ›
Pipette out exactly 36.2ml of sodium acetate solution into 100ml of standard flask and add 14.8ml of glacial acetic acid, make the volume 100ml using distilled water using distilled water. This gives 0.2 M of acetic acid and sodium acetate buffer.How do you make 0.5 acetic acid? ›
Carefully add 5 ml of glacial acetic acid into 95 ml of distilled water and mix thoroughly. Unused acetic acid should be discarded at the end of the day. Note: It is important to remember to dilute the glacial acetic acid, since the undiluted strength causes a severe chemical burn if applied to the epithelium. A.How do you calculate molar mass quizlet? ›
The molar mass is the mass of a given chemical element or chemical compound (g) divided by the amount of substance (mol). The molar mass of a compound can be calculated by adding the standard atomic masses (in g/mol) of the constituent atoms.Why do we calculate molar mass? ›
Molar mass is of great importance when setting up an experiment. If you are testing principles involving specific amounts of a substance, the molar mass allows you to figure out how much you should weigh out on your scale.How do you make 0.05 M acetic acid? ›
Add water to 3.0 g of acetic acid (100) to prepare a 100 mL solution. Adjust the pH of the resulting solution to 4.0 with a solution prepared by dissolving 3.4 g of sodium acetate trihydrate in water to yield 500 mL.What is 0.1 M acid? ›
0.1M Hydrochloric Acid is often used for acid-base reactions, refinement, and pH control. This chemical is suitable for use in any educational or research laboratory that deals with organic chemistry or biochemistry. Bottle has safe handling and storage procedures printed directly on the bottle.What is 0.1 N acetic acid? ›
Perchloric Acid, 0.1 N Solution in Glacial Acetic Acid, (USP Volumetric Solution) is an inorganic acid dissolved in an organic solvent. It's main characteristic is that it is stronger than both sulfuric and nitric acid. It is also used for its super acid properties and also as an etchant for certain metals.
What is 0.1 M acetic acid in liquid? ›
|Concentrated Reagents||Density||Volume (mL) required to make 1000 mL solution:|
|Acetic acid 99.5%||1.05||57.5|
12×10−6M.How do you find the mass percent of acetic acid in vinegar? ›
Calculate the percent of acetic acid in vinegar. Percent acetic acid = (mass of acetic acid/mass of vinegar) x 100.How to calculate concentration? ›
The concentration of a solution represents the percentage of the solute is dissolved in the solution. You can calculate the concentration of a solution using this formula: Concentration = Volume (or Mass) of solute x 100/Volume (Mass) of solution (ml).What is 0.5 m acetic acid? ›
|Chemical Name or Material||Acetic acid solution|
- The formula for the number of moles formula is expressed as.
- Number of moles formula is.
- Number of moles = Mass of substance / Mass of one mole.
- Number of moles = 95 / 86.94.
The pH of 1 dm3 solution of 0.5 M acetic acid (K∘a=1.8×10−5) is 2.52.What is 25% acetic acid? ›
Acetic Acid, 25% Solution appears as a clear, colorless solution with a strong vinegar odor. It is freely soluble in Water at ambient conditions. Lab Alley's Acetic Acid, 25% Solution, Lab Grade contains 25% by volume of pure Acetic Acid dissolved in 75% by volume of purified Water.How do you make 25% acetic acid? ›
Preparation: To make 1 Quart: 3 Tbsp white vinegar + 1 Quart luke-warm water To make 1 Gallon: ¾ C white vinegar + 1 Gallon luke-warm water (Alternatively, some pharmacies may have this 0.25% Acetic Acid Irrigation Solution premixed in a 1 Liter plastic pour bottle.)
How do you make a 0.1 molar solution? ›
To make a 0.1M NaCl solution, you could weigh 5.844g of NaCl and dissolve it in 1 litre of water; OR 0.5844g of NaCl in 100mL of water (see animation below); OR make a 1:10 dilution of a 1M sample.How do you make 20 mM acetic acid? ›
Prepare 20 mM acetic acid solution by adding 115 µL of glacial acetic acid to 100 mL of ultrapure water.What is 1 equivalent of acetic acid? ›
Acetic acid contains one replaceable hydrogen. Hence, the equivalent weight of Acetic acid is 60u. Note- Equivalent weight is the weight of one equivalent which is the weight of a given substance which combines with or displaces a fixed quantity of another.What is the number of moles of Mg in Mg c2h3o2 2? ›
There are 4 moles of C atoms, 6 moles of H, 4 moles of O, and 1 mole of Mg.What is the molecular formula of CH3COOH? ›
Acetic acid , systematically named ethanoic acid , is an acidic, colourless liquid and organic compound with the chemical formula CH3COOH (also written as CH3CO2H, C2H4O2, or HC2H3O2).What is CH3COOH used for? ›
Acetic acid is used in many industrial processes for the production of substrates and it is often used as a chemical reagent for the production of a number of chemical compounds like acetic anhydride, ester, vinyl acetate monomer, vinegar, and many other polymeric materials.Is CH3COOH a molecular compound? › Why is the formula for acetic acid CH3COOH? ›
A chemical formula of a compound represents the chemical nature of the compounds, since acetic acid is an organic acid containing -COOH group, therefore, the chemical formula must include this group. Therefore, the correct formula for acetic acid is CHCOOH.What does CH3COOH mean in chemistry? ›
acetic acid (CH3COOH), also called ethanoic acid, the most important of the carboxylic acids. A dilute (approximately 5 percent by volume) solution of acetic acid produced by fermentation and oxidation of natural carbohydrates is called vinegar; a salt, ester, or acylal of acetic acid is called acetate.Is CH3COOH a base or acid? ›
A weak acid (e.g. CH3COOH) is in equilibrium with its ions in water and its conjugate (CH3COO–, a weak base) is also in equilibrium in water.
What is 0.5 M acetic acid? ›
|Chemical Name or Material||Acetic acid solution|
A volume of 50 mL of 10 M acetic acid is required to prepare 1.0 L of 0.50 M acetic acid.What is the concentration of 0.1 M acetic acid? ›
Designed for laboratory use in titrations, as a chemical reagent and as a buffer. Acetic Acid Solution, 0.1M, Chem-Lab is a clear, colorless solution with a vinegar odor. It contains 6.005g CH3COOH per 1L H2O.What is the molarity and molality of CH3COOH? ›
Molarity and molality of pure CH3COOH are respectively : (dCH3COOH=1.5g/ml) Equal volumes of 0.50 M of HCl, 0.25 M of NaOH and 0.75 M of NaCl are ... A solution is made by dissolving CaBr(2) in water (solvent) such that ...