Everyone knows that air pressure is measured in millimeters of mercury, since this unit of measurement is used in everyday life. In physics, in the SI system of units, pressure is measured in pascals. The article will tell you how to convert millimeters of mercury to pascals.

Air pressure

First, let's deal with the question of what air pressure is. This value is understood as the pressure that the atmosphere of our planet exerts on any objects located on the surface of the Earth. It is easy to understand the reason for the appearance of this pressure: for this you need to remember that each body of finite mass has a certain weight, which can be determined by the formula: N \u003d m * g, where N is the weight of the body, g is the value of the acceleration of gravity, m is the mass of the body . The presence of weight in the body is due to gravity.

The atmosphere of our planet is a large gaseous body, which also has some mass, and therefore has weight. It has been experimentally established that the mass of air that exerts pressure on 1 m 2 of the earth's surface at sea level is approximately equal to 10 tons! The pressure exerted by this air mass is 101,325 pascals (Pa).

Pascal conversion millimeters of mercury

When viewing a weather forecast, atmospheric pressure information is usually presented in millimeters of a column of mercury (mmHg). To understand how mm Hg. Art. convert to pascals, you only need to know the ratio between these units. And remember this ratio is simple: 760 mm Hg. Art. corresponds to a pressure of 101 325 Pa.

Knowing the above figures, you can get the formula for converting millimeters of mercury to pascals. The easiest way to do this is to use a simple proportion. For example, some pressure H is known in mm Hg. Art., then the pressure P in pascals will be: P \u003d H * 101325/760 \u003d 133.322 * H.

The above formula is easy to use. For example, at the top of Mount Elbrus (5642 m), the air pressure is approximately 368 mm Hg. Art. Substituting this value into the formula, we get: P = 133.322*H = 133.322*368 = 49062 Pa, or approximately 49 kPa.

Man is far from being the king of nature, but rather her child, an integral part of the universe. We live in a world where everything is strictly interconnected and subject to a single system.

Everyone knows that the Earth is surrounded by a dense air mass, which is commonly called the atmosphere. And any object, including the human body, is “pressed” by an air column that has a certain weight. Scientists empirically managed to establish that each square centimeter of the human body is affected by atmospheric pressure weighing 1.033 kilograms. And if you carry out simple mathematical calculations, it turns out that on average a person is under pressure of 15550 kg.

The weight is colossal, but, fortunately, completely imperceptible. Perhaps this is due to the presence of dissolved oxygen in human blood.
What is the effect of atmospheric pressure on a person? A little more about this.

Atmospheric pressure norm

Doctors, in a conversation about what atmospheric pressure is considered normal, indicate a range of 750 ... .760 mm Hg. Such a spread is quite acceptable, since the relief of the planet is not perfectly even.

Meteorological dependence

Doctors say that the body of some people is able to adapt to any conditions. They do not even care about such serious tests as long-distance flights by plane from one climatic zone to another.

At the same time, others, without leaving their apartment, feel the approach of changes in the weather. This can manifest itself in the form of severe headaches, inexplicable weakness, or constantly wet palms, for example. Such people are more likely to be diagnosed with diseases of the vessels and the endocrine system.

It is especially difficult when atmospheric pressure makes a sharp jump in a short time. According to statistics, most of the people whose body reacts so violently to changes in atmospheric pressure indicators are women living in large cities. Unfortunately, the rigid rhythm of life, overcrowding, ecology are not the best companions of health.

You can get rid of addiction if you want. You just need to be persistent and consistent. Everyone knows the methods. These are the basics of a healthy lifestyle: hardening, swimming, walking, running, healthy eating, adequate sleep, elimination of bad habits, weight loss.

How does our body react to increased atmospheric pressure?

Atmospheric pressure (norm for a person) - ideally 760 mm Hg. But such an indicator is very rarely kept.

As a result of an increase in pressure in the atmosphere, clear weather is established, there are no sharp changes in humidity and air temperature. The body of hypertensive patients and allergy sufferers actively reacts to such changes.

In the conditions of the city, in calm weather, naturally, gas pollution makes itself felt. The first to feel this are patients who have a problem with the respiratory organs.

An increase in atmospheric pressure also affects the immune system. Specifically, this is expressed in a decrease in leukocytes in the blood. It will not be easy for a weakened body to cope with infections.

Doctors advise:

Start the day with light morning exercises. Take a contrast shower. For breakfast, give preference to foods that are high in potassium (cottage cheese, raisins, dried apricots, bananas). Don't allow yourself to eat too much. Don't overeat. This day is not the most successful for great physical effort and the manifestation of emotions. Arriving home, rest for an hour, do routine household chores, go to bed earlier than usual.

Low atmospheric pressure and well-being

Low atmospheric pressure, how much is it? Answering the question, we can conditionally say if the barometer reading is lower than 750 mm Hg. But it all depends on where you live. In particular, for Moscow, indicators of 748-749 mm Hg. are the norm.

Among the first to feel this deviation from the norm are “cores” and those who have intracranial pressure. They complain of general weakness, frequent migraines, lack of oxygen, shortness of breath, as well as pain in the intestines.

Doctors advise:

Bring your blood pressure back to normal. Reduce physical stress. Include ten minutes of rest in every working hour. Drink more liquid, preferring green tea with honey. Drink morning coffee. Take herbal tinctures indicated for cores. Relax in the evenings under a contrast shower. Go to bed earlier than usual.

How changes in humidity affect the body

Low air humidity of 30 - 40 percent is not useful. It irritates the nasal mucosa. Asthmatics and allergy sufferers are the first to feel this deviation. In this case, moisturizing the mucous membrane of the nasopharynx with a slightly salty aqueous solution can help.

Frequent precipitation naturally raises the air humidity to 70-90 percent. It also negatively affects health.
High air humidity can exacerbate chronic diseases of the kidneys and joints.

Doctors advise:

Change the climate, if possible, to dry. Reduce your time outdoors in wet weather. Go for a walk in warm clothes. Remember vitamins

Atmospheric pressure and temperature

The optimum temperature for a person in a room is not higher than +18. This is especially true for the bedroom.

How is the mutual influence of atmospheric pressure and oxygen formed?

In the case of an increase in air temperature and a simultaneous decrease in atmospheric pressure, people with diseases of the cardiovascular and respiratory organs suffer.

If the temperature drops and atmospheric pressure rises, it becomes bad for hypertensive patients, asthmatics and those who have problems with the stomach and genitourinary system.

In the case of a sharp and repeated fluctuation in temperature, an unacceptably large amount of histamine, the main provocateur of allergies, is produced in the body.

Good to know

What is the normal atmospheric pressure for a person, now you know. This is 760 mm Hg, but the barometer records such indicators very rarely.

It is also important to remember that the change in atmospheric pressure with height (while it rapidly decreases) occurs quite sharply. It is because of such a drop that a person climbing a mountain very quickly can lose consciousness.

In Russia, atmospheric pressure is measured in mm Hg. But the international system takes pascals as a unit of measurement. In this case, the normal atmospheric pressure in pascals will be equal to 100 kPa. If we convert our 760 mm Hg. in pascals, then the normal atmospheric pressure in pascals for our country will be 101.3 kPa.

For normal atmospheric pressure, it is customary to take the air pressure at sea level at a latitude of 45 degrees at a temperature of 0 ° C. Under these ideal conditions, a column of air presses on each area with the same force as a column of mercury 760 mm high. This figure is an indicator of normal atmospheric pressure.

Atmospheric pressure depends on the height of the area above sea level. On a hill, the indicators may differ from ideal, but at the same time they will also be considered the norm.

Atmospheric pressure standards in different regions

Due to the location of Moscow on a hill, the pressure here is considered to be 747-748 mm of column. In St. Petersburg, normal pressure is 753-755 mmHg. This difference is explained by the fact that the city on the Neva is located lower than Moscow. In some areas of St. Petersburg, you can meet the ideal pressure rate of 760 mm Hg. For Vladivostok, the normal pressure is 761 mmHg. And in the mountains of Tibet - 413 mm of mercury.

The effect of atmospheric pressure on people

A person's well-being is affected by a sharp fluctuation in atmospheric pressure, i.e. decrease or increase in pressure by at least 1 mmHg for three hours

With a decrease in pressure, there is a lack of oxygen in the human blood, hypoxia of the cells of the body develops, and the heartbeat quickens. Headaches appear. There are difficulties in the respiratory system. Due to poor blood supply, a person may be disturbed by pain in the joints, numbness of the fingers.

An increase in pressure leads to an excess of oxygen in the blood and tissues of the body. The tone of blood vessels increases, which leads to their spasms. As a result, the blood circulation of the body is disturbed. There may be visual disturbances in the form of the appearance of "flies" before the eyes, dizziness, nausea. A sharp increase in pressure to large values ​​\u200b\u200bcan lead to rupture of the ear tympanic membrane.

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1 pascal [Pa] = 0.00750063755419211 millimeter of mercury (0°C) [mmHg]

Initial value

Converted value

pascal exapascal petapascal terapascal gigapascal megapascal kilopascal hectopascal decapascal decipascal centipascal millipascal micropascal nanopascal picopascal femtopascal attopascal newton per sq. newton meter per sq. centimeter newton per sq. millimeter kilonewton per sq. meter bar millibar microbar dynes per sq. centimeter kilogram-force per sq. meter kilogram-force per sq. centimeter kilogram-force per sq. millimeter gram-force per sq. centimeter ton-force (short) per sq. ft ton-force (short) per sq. inch ton-force (L) per sq. ft ton-force (L) per sq. inch kilopound-force per sq. inch kilopound-force per sq. inch lbf/sq. ft lbf/sq. inch psi poundal per sq. ft torr centimeter of mercury (0°C) millimeter of mercury (0°C) inch of mercury (32°F) inch of mercury (60°F) centimeter of water column (4°C) mm w.c. column (4°C) inch w.c. column (4°C) foot of water (4°C) inch of water (60°F) foot of water (60°F) technical atmosphere physical atmosphere decibar walls per square meter pieze barium (barium) Planck pressure meter sea water foot sea ​​water (at 15 ° C) meter of water. column (4°C)

More about pressure

General information

In physics, pressure is defined as the force acting per unit area of ​​a surface. If two identical forces act on one large and one smaller surface, then the pressure on the smaller surface will be greater. Agree, it is much worse if the owner of studs steps on your foot than the mistress of sneakers. For example, if you press the blade of a sharp knife on a tomato or carrot, the vegetable will be cut in half. The surface area of ​​the blade in contact with the vegetable is small, so the pressure is high enough to cut through the vegetable. If you press with the same force on a tomato or carrot with a blunt knife, then most likely the vegetable will not be cut, since the surface area of ​​\u200b\u200bthe knife is now larger, which means the pressure is less.

In the SI system, pressure is measured in pascals, or newtons per square meter.

Relative pressure

Sometimes pressure is measured as the difference between absolute and atmospheric pressure. This pressure is called relative or gauge pressure and it is measured, for example, when checking the pressure in car tires. Measuring instruments often, although not always, indicate relative pressure.

Atmosphere pressure

Atmospheric pressure is the air pressure at a given location. It usually refers to the pressure of a column of air per unit surface area. A change in atmospheric pressure affects the weather and air temperature. People and animals suffer from severe pressure drops. Low blood pressure causes problems in people and animals of varying severity, from mental and physical discomfort to fatal diseases. For this reason, aircraft cabins are maintained at a pressure above atmospheric pressure at a given altitude because the atmospheric pressure at cruising altitude is too low.

Atmospheric pressure decreases with altitude. People and animals living high in the mountains, such as the Himalayas, adapt to such conditions. Travelers, on the other hand, should take the necessary precautions so as not to get sick because the body is not accustomed to such low pressure. Climbers, for example, can get altitude sickness associated with a lack of oxygen in the blood and oxygen starvation of the body. This disease is especially dangerous if you stay in the mountains for a long time. Exacerbation of altitude sickness leads to serious complications, such as acute mountain sickness, high-altitude pulmonary edema, high-altitude cerebral edema, and the most acute form of mountain sickness. The danger of altitude and mountain sickness begins at an altitude of 2400 meters above sea level. To avoid altitude sickness, doctors advise not using depressants such as alcohol and sleeping pills, drinking plenty of fluids, and ascending to altitude gradually, for example by walking rather than by transport. It's also good to eat plenty of carbohydrates and get plenty of rest, especially if the climb is fast. These measures will allow the body to get used to the lack of oxygen caused by low atmospheric pressure. If these guidelines are followed, the body will be able to produce more red blood cells to transport oxygen to the brain and internal organs. To do this, the body will increase the pulse and respiratory rate.

First aid in such cases is provided immediately. It is important to move the patient to a lower altitude where atmospheric pressure is higher, preferably lower than 2400 meters above sea level. Drugs and portable hyperbaric chambers are also used. These are lightweight, portable chambers that can be pressurized with a foot pump. A patient with mountain sickness is placed in a chamber in which pressure is maintained corresponding to a lower altitude above sea level. Such a chamber is used only for first aid, after which the patient must be lowered.

Some athletes use low blood pressure to improve circulation. Usually, for this, training takes place under normal conditions, and these athletes sleep in a low-pressure environment. Thus, their body gets used to high altitude conditions and begins to produce more red blood cells, which in turn increases the amount of oxygen in the blood, and allows them to achieve better results in sports. For this, special tents are produced, the pressure in which is regulated. Some athletes even change the pressure throughout the bedroom, but sealing the bedroom is an expensive process.

suits

Pilots and astronauts have to work in a low pressure environment, so they work in spacesuits that allow them to compensate for the low pressure of the environment. Space suits completely protect a person from the environment. They are used in space. Altitude compensation suits are used by pilots at high altitudes - they help the pilot breathe and counteract low barometric pressure.

hydrostatic pressure

Hydrostatic pressure is the pressure of a fluid caused by gravity. This phenomenon plays a huge role not only in engineering and physics, but also in medicine. For example, blood pressure is the hydrostatic pressure of blood against the walls of blood vessels. Blood pressure is the pressure in the arteries. It is represented by two values: systolic, or the highest pressure, and diastolic, or the lowest pressure during the heartbeat. Devices for measuring blood pressure are called sphygmomanometers or tonometers. The unit of blood pressure is millimeters of mercury.

The Pythagorean mug is an entertaining vessel that uses hydrostatic pressure, specifically the siphon principle. According to legend, Pythagoras invented this cup to control the amount of wine he drank. According to other sources, this cup was supposed to control the amount of water drunk during a drought. Inside the mug is a curved U-shaped tube hidden under the dome. One end of the tube is longer, and ends with a hole in the stem of the mug. The other, shorter end is connected by a hole to the inner bottom of the mug so that the water in the cup fills the tube. The principle of operation of the mug is similar to the operation of a modern toilet tank. If the liquid level rises above the level of the tube, the liquid overflows into the other half of the tube and flows out due to the hydrostatic pressure. If the level, on the contrary, is lower, then the mug can be safely used.

pressure in geology

Pressure is an important concept in geology. Without pressure, it is impossible to form gemstones, both natural and artificial. High pressure and high temperature are also necessary for the formation of oil from the remains of plants and animals. Unlike gems, which are mostly found in rocks, oil forms at the bottom of rivers, lakes, or seas. Over time, more and more sand accumulates over these remnants. The weight of water and sand presses on the remains of animal and plant organisms. Over time, this organic material sinks deeper and deeper into the earth, reaching several kilometers below the earth's surface. The temperature rises by 25°C for every kilometer below the earth's surface, so at a depth of several kilometers the temperature reaches 50-80°C. Depending on the temperature and temperature difference in the formation medium, natural gas may be formed instead of oil.

natural gems

The formation of gemstones is not always the same, but pressure is one of the main components of this process. For example, diamonds are formed in the Earth's mantle, under conditions of high pressure and high temperature. During volcanic eruptions, diamonds move to the upper layers of the Earth's surface due to magma. Some diamonds come to Earth from meteorites, and scientists believe they were formed on Earth-like planets.

Synthetic gems

The production of synthetic gemstones began in the 1950s and has been gaining popularity in recent years. Some buyers prefer natural gemstones, but artificial gemstones are becoming more and more popular due to the low price and lack of problems associated with natural gemstone mining. Thus, many buyers choose synthetic gemstones because their extraction and sale is not associated with the violation of human rights, child labor and the financing of wars and armed conflicts.

One of the technologies for growing diamonds in the laboratory is the method of growing crystals at high pressure and high temperature. In special devices, carbon is heated to 1000 ° C and subjected to a pressure of about 5 gigapascals. Typically, a small diamond is used as the seed crystal, and graphite is used for the carbon base. A new diamond grows from it. This is the most common method of growing diamonds, especially as gemstones, due to its low cost. The properties of diamonds grown in this way are the same or better than those of natural stones. The quality of synthetic diamonds depends on the method of their cultivation. Compared to natural diamonds, which are most often transparent, most artificial diamonds are colored.

Due to their hardness, diamonds are widely used in manufacturing. In addition, their high thermal conductivity, optical properties and resistance to alkalis and acids are highly valued. Cutting tools are often coated with diamond dust, which is also used in abrasives and materials. Most of the diamonds in production are of artificial origin due to the low price and because the demand for such diamonds exceeds the ability to mine them in nature.

Some companies offer services to create memorial diamonds from the ashes of the deceased. To do this, after cremation, the ashes are cleaned until carbon is obtained, and then a diamond is grown on its basis. Manufacturers advertise these diamonds as a memory of the departed, and their services are popular, especially in countries with a high percentage of wealthy citizens, such as the United States and Japan.

Crystal growth method at high pressure and high temperature

The high pressure, high temperature crystal growth method is mainly used to synthesize diamonds, but more recently, this method has been used to improve natural diamonds or change their color. Different presses are used to artificially grow diamonds. The most expensive to maintain and the most difficult of these is the cubic press. It is mainly used to enhance or change the color of natural diamonds. Diamonds grow in the press at a rate of approximately 0.5 carats per day.

Do you find it difficult to translate units of measurement from one language to another? Colleagues are ready to help you. Post a question to TCTerms and within a few minutes you will receive an answer.

About what atmospheric pressure is, we are told at school in the lessons of natural history and geography. We get acquainted with this information and safely throw it out of our heads, rightly believing that we will never be able to use it.

But over the years, the stress and environmental conditions of the environment will have enough impact on us. And the concept of “geodependence” will no longer seem like nonsense, because pressure surges and headaches will begin to poison life. At this point, you will have to remember what it is like in Moscow, for example, in order to adapt to new conditions. And live on.

School basics

The atmosphere that surrounds our planet, unfortunately, literally puts pressure on all living and non-living things. To define this phenomenon, there is a term - atmospheric pressure. This is the force of the impact of the air column on the area. In the SI system, we talk about kilograms per 1 square centimeter. Normal atmospheric pressure (for Moscow, optimal indicators have long been known) affects the human body with the same force as a weight weighing 1.033 kg. But most of us don't notice it. Enough gases are dissolved in body fluids to neutralize all unpleasant sensations.

Atmospheric pressure standards in different regions are different. But 760 mm Hg is considered ideal. Art. Experiments with mercury were most revealing at a time when scientists were proving that air has weight. Mercury barometers are the most common instruments for measuring pressure. It should also be remembered that the ideal conditions for which the named 760 mm Hg are relevant. Art., is a temperature of 0 ° C and the 45th parallel.

In the international system of units, it is customary to define pressure in Pascals. But for us it is more familiar and understandable to use the fluctuations of the mercury column.

Relief features

Of course, many factors influence the value of atmospheric pressure. The most significant are the relief and proximity to the magnetic poles of the planet. The norm of atmospheric pressure in Moscow is fundamentally different from the indicators of the same St. Petersburg; and for the inhabitants of some remote village in the mountains, this figure may seem generally anomalous. Already at the level of 1 km above sea level It corresponds to 734 mm Hg. Art.

As already noted, in the region of the earth's poles, the amplitude of pressure changes is much higher than in the equatorial zone. Even during the day, atmospheric pressure changes somewhat. Slightly, however, only 1-2 mm. This is due to the difference between day and night temperatures. The nights are usually cooler, which means the pressure is higher.

pressure and man

For a person, in essence, it does not matter what atmospheric pressure is: normal, low and high. These are very arbitrary definitions. People tend to get used to everything and adapt. Much more important is the dynamics and magnitude of changes in atmospheric pressure. There are quite a lot of zones on the territory of the CIS countries, in particular in Russia. Often, local residents do not even know about it.

The norm of atmospheric pressure in Moscow, for example, may well be considered as a non-constant value. After all, every skyscraper is a kind of mountain, and the higher and faster you go up (go down), the more noticeable the drop will be. Some people may well pass out while riding a high-speed elevator.

Adaptation

Doctors almost unanimously agree that the question “what atmospheric pressure is considered normal” (Moscow or any settlement on the planet - it doesn’t matter) is incorrect in itself. Our body adapts perfectly to life above or below sea level. And if the pressure does not have a detrimental effect on a person, it can be considered normal for a given area. Doctors say that the norm of atmospheric pressure in Moscow and other large cities is in the range from 750 to 765 mm Hg. pillar.

A completely different matter is the pressure drop. If within a few hours it rises (falls) by 5-6 mm, people begin to experience discomfort and pain. This is especially dangerous for the heart. Its beat becomes more frequent, and a change in the frequency of breaths leads to a change in the rhythm of oxygen supply to the body. The most common ailments in such a situation are weakness, etc.

Meteorological dependence

Normal atmospheric pressure for Moscow may seem like a nightmare to a visitor from the North or from the Urals. After all, each region has its own norm and, accordingly, its own understanding of the stable state of the body. And since in life we ​​do not concentrate on exact pressure indicators, weather forecasters always focus on what kind of pressure it is for a given region - increased or decreased.

After all, not every person can boast that he does not notice the corresponding changes. Anyone who cannot call himself lucky in this matter must systematize his feelings during pressure drops and find acceptable countermeasures. Often a cup of strong coffee or tea is enough, but sometimes more serious help in the form of medicines is also needed.

pressure in the metropolis

The most meteorologically dependent are residents of megacities. It is here that a person experiences more stress, lives life at a high pace and experiences environmental degradation. Therefore, to know what is the norm of atmospheric pressure for Moscow is vital.

The capital of the Russian Federation is located on the Central Russian Upland, which means that there is a priori a zone of low pressure. Why? It's very simple: the higher above sea level, the lower the atmospheric pressure. For example, on the banks of the Moskva River, this figure will be 168 m. And the maximum value in the city was recorded in Teply Stan - 255 m above sea level.

It can be assumed that Muscovites expect abnormally low atmospheric pressure much less frequently than residents of other regions, which, of course, cannot but rejoice them. And yet, what atmospheric pressure is considered the norm in Moscow? Meteorologists say that usually its indicator does not exceed 748 mm Hg. pillar. This means little, because we already know that even a quick rise in an elevator can have a significant effect on a person's heart.

On the other hand, Muscovites do not feel uncomfortable if the pressure fluctuates between 745-755 mm Hg. Art.

Danger

But from the point of view of doctors, not everything is so optimistic for the residents of the metropolis. Many experts rightly believe that working on the upper floors of business centers, people endanger themselves. Indeed, in addition to the fact that they live in a zone of low pressure, they also spend almost a third of the day in places with

If we add to this fact violations of the ventilation system of the building and the constant operation of air conditioners, it becomes obvious that the employees of such offices are the most inefficient, sleepy and sick.

Results

Actually, it is worth remembering a few points. First, there is no single ideal value for normal atmospheric pressure. There are regional norms that can differ significantly in absolute terms. Secondly, the characteristics of the human body make it easy to experience pressure drops if this happens rather slowly. Thirdly, the healthier we lead and the more often we manage to observe the daily regimen (getting up at the same time, a long night's sleep, following an elementary diet, etc.), the less we are subject to meteorological dependence. So, more energetic and cheerful.