Here's a look at the chemical composition of the human body, including element abundance and how each element is used. Elements are listed in order of decreasing abundance, with the most common element (by mass) listed first. Approximately 96% of body weight consists of only four elements: oxygen, carbon, hydrogen, and nitrogen. Calcium, phosphorus, magnesium, sodium, potassium, chlorine, and sulfur, are macronutrients or elements the body needs in a significant amount.01of 10
OxygenLiquid oxygen is blue. Warwick Hillier, Australia National University, Canberra
By mass, oxygen is the most abundant element in the human body. If you think about it, this makes sense, since most of the body consists of water or H2O. Oxygen accounts for 61-65% of the mass of the human body. Even though there are many more atoms of hydrogen in your body than oxygen, each oxygen atom is 16 times more massive than a hydrogen atom.
Oxygen is used for cellular respiration.02of 10
CarbonGraphite, one of the forms of elemental carbon. De Agostini Picture Library / Getty Images
All living organisms contain carbon, which forms the basis for all of the organic molecules in the body. Carbon is the second most abundant element in the human body, accounting for 18% of body weight.
All organic molecules (fats, proteins, carbohydrates, nucleic acids) contain carbon. Carbon also is found as carbon dioxide or CO2. You inhale air that contains about 20% oxygen. The air you exhale contains much less oxygen, but is rich in carbon dioxide.03of 10
HydrogenHydrogen is a colorless gas that glows violet when ionized.
Wikimedia Creative Commons
Hydrogen accounts for 10% of the mass of the human body.
Since around 60% of your body weight is water, much of the hydrogen exists in water, which functions to transport nutrients, remove wastes, lubricate organs and joints, and regulate body temperature. Hydrogen is also important in energy production and use. The H+ ion can be used as a hydrogen ion or proton pump to produce ATP and regulate numerous chemical reactions. All organic molecules contain hydrogen in addition to carbon.04of 10
Approximately 3% of the mass of the human body is nitrogen.
Proteins, nucleic acids, and other organic molecules contain nitrogen. Nitrogen gas is found in the lungs since the primary gas in air is nitrogen.05of 10
Tomihahndorf / Creative Commons
Calcium accounts for 1.5% of human body weight.
Calcium is used to give the skeletal system its rigidity and strength. Calcium is found in bones and teeth. The Ca2+ ion is important for muscle function.06of 10
PhosphorusDorling Kindersley / Getty Images
About 1.2% to 1.5% of your body consists of phosphorus.
Phosphorus is important for bone structure and is part of the primary energy molecule in the body, ATP or adenosine triphosphate. Most of the phosphorus in the body is in the bones and teeth.07of 10
PotassiumPotassium is a soft, silvery-white metal that quickly oxidizes.
Dnn87 / Creative Commons
Potassium makes up 0.2% to 0.35% of the adult human body.
Potassium is an important mineral in all cells. It functions as an electrolyte and is particularly important for conducting electrical impulses and for muscle contraction.08of 10
Sulfur's abundance is 0.20% to 0.25% in the human body.
Sulfur is an important component of amino acids and proteins. It's present in keratin, which forms skin, hair, and nails. It's also needed for cellular respiration, allowing cells to use oxygen.09of 10
SodiumSodium is a soft, silvery reactive metal.
Dnn87 / Creative Commons
Approximately 0.10% to 0.15% of your body mass is the element sodium.
Sodium is an important electrolyte in the body. It is an important component of cellular fluids and is needed for the transmission of nerve impulses. It helps regulate fluid volume, temperature, and blood pressure.10of 10
Warut Roonguthai / Wikimedia Commons
The metal magnesium comprises about 0.05% of human body weight.
About half of the body's magnesium is found in the bones. Magnesium is important for numerous biochemical reactions. It helps regulate heartbeat, blood pressure, and blood glucose levels. It is used in protein synthesis and metabolism. It is needed to support proper immune system, muscle, and nerve function.