What constitutes a high fever in adults and children. How to recognize dangerous fever levels. When to seek immediate medical attention for fevers. What causes high fevers and their potential complications.

Understanding Fever Thresholds in Adults

Fevers are the body’s natural defense mechanism against infections and illnesses. However, distinguishing between a mild and a severe fever is crucial for proper management and timely medical intervention. For adults, the baseline body temperature is typically 98.6°F (37°C).

Here’s a breakdown of fever levels in adults:

• Low-grade fever: 100°F – 101°F (37.8°C – 38.3°C)
• Moderate fever: 102°F (38.9°C)
• High fever: 103°F – 104°F (39.4°C – 40°C)
• Very high fever (hyperpyrexia): Above 104°F (40°C)

When does a fever become concerning for adults? Generally, temperatures of 103°F (39.4°C) or higher are considered high for an adult. However, if an adult maintains a temperature above 100°F (37.8°C) for an extended period, it may warrant medical attention.

Recognizing High Fevers in Children

Children’s bodies respond differently to infections and illnesses compared to adults. Their immune systems are still developing, making them more susceptible to rapid temperature changes. For children, a high fever may be any temperature above 100°F (37.8°C), especially if it persists for an extended period.

Are there specific signs of high fever in children? Yes, parents should be vigilant for the following symptoms:

• Persistent temperature above 100°F (37.8°C)
• Severe diarrhea
• Signs of dehydration
• Repeated vomiting
• Seizures
• Unexplained rash

It’s important to note that younger children and infants require more immediate medical attention than older children or adults with similar temperatures. This is due to their increased vulnerability to complications from high fevers.

The Science Behind Fevers: Understanding the Body’s Thermostat

Have you ever wondered why our bodies develop fevers? The process is fascinating and involves a complex interplay of various biological systems. At the heart of this process is the hypothalamus, often referred to as the body’s “thermostat.”

The hypothalamus is responsible for regulating body temperature. When the body detects an infection or illness, it releases substances called pyrogens into the bloodstream. These pyrogens signal the hypothalamus to increase the body’s core temperature, resulting in a fever.

What are the sources of pyrogens? They can originate from various sources, including:

• Bacteria
• Viruses
• Fungi
• Toxins
• Certain drugs

The severity of a fever often correlates with the number of pyrogens present in the bloodstream. As the condition persists, the fever may intensify, highlighting the importance of timely treatment.

Potential Causes of High Fevers

Identifying the underlying cause of a high fever can be challenging due to the vast array of potential triggers. While viral illnesses are the most common culprits, numerous other factors can contribute to elevated body temperatures.

Some common causes of high fevers include:

1. Viral infections (e.g., influenza, COVID-19)
2. Bacterial infections (e.g., strep throat, urinary tract infections)
3. Parasitic infections
4. Autoimmune disorders
5. Certain medications
6. Heat exhaustion or heat stroke
7. Malignancies (in rare cases)

Why is it crucial to identify the cause of a high fever? Understanding the underlying cause allows healthcare providers to develop targeted treatment plans, addressing not just the fever itself but also the root of the problem.

When to Seek Immediate Medical Attention

Recognizing when a fever requires urgent medical care is crucial for preventing potential complications. The threshold for seeking medical attention varies depending on age and overall health status.

For adults, consider seeking immediate care if:

• Temperature exceeds 103°F (39.4°C)
• Fever persists for more than three days
• Severe headache accompanies the fever
• Difficulty breathing or chest pain occurs
• Unusual skin rash develops
• Signs of dehydration appear

For children, err on the side of caution and seek medical attention if:

• Infant under 3 months has any fever
• Child between 3-6 months has a temperature above 102°F (38.9°C)
• Any child has a fever lasting more than 24 hours
• Fever is accompanied by severe symptoms like lethargy, inconsolable crying, or difficulty waking

Remember, individuals with compromised immune systems or chronic health conditions may need to seek care sooner, even with lower-grade fevers.

Home Management of Fevers

While high fevers often require medical attention, there are several strategies to manage milder fevers at home. These methods can help alleviate discomfort and support the body’s natural healing processes.

Effective home remedies for fever management include:

1. Stay hydrated: Drink plenty of fluids to prevent dehydration
2. Rest: Allow your body to conserve energy for fighting the infection
3. Cool compresses: Apply a damp cloth to the forehead or wrists
4. Light clothing: Wear breathable, lightweight clothing to help regulate body temperature
5. Over-the-counter medications: Use fever-reducing medications like acetaminophen or ibuprofen as directed
6. Lukewarm baths: A tepid bath can help lower body temperature gradually

Is it true that we should “sweat out” a fever? This is a common misconception. While sweating can occur as the body’s temperature decreases, intentionally bundling up to induce sweating is not recommended and may even be counterproductive.

Potential Complications of Untreated High Fevers

While fevers are generally beneficial in fighting infections, prolonged high fevers can lead to various complications if left untreated. Understanding these potential risks underscores the importance of proper fever management and timely medical intervention.

Possible complications of untreated high fevers include:

• Dehydration: High fevers increase fluid loss through sweating and rapid breathing
• Febrile seizures: More common in young children, these seizures can occur when body temperature rises rapidly
• Hallucinations: Extremely high fevers may cause temporary confusion or hallucinations
• Organ damage: In rare cases, very high fevers (above 107°F or 41.7°C) can lead to brain damage or other organ dysfunction

How can these complications be prevented? The key lies in vigilant monitoring of fever symptoms, appropriate home care, and seeking medical attention when necessary. Remember, early intervention can significantly reduce the risk of severe complications.

Special Considerations for High-Risk Groups

Certain populations require extra caution when it comes to fever management. These high-risk groups may experience more severe symptoms or develop complications more rapidly than the general population.

High-risk groups include:

• Infants and young children
• Elderly individuals
• Pregnant women
• People with compromised immune systems
• Individuals with chronic medical conditions

For these groups, it’s crucial to consult healthcare providers early in the course of a fever, even if symptoms seem mild. Prompt medical attention can prevent potential complications and ensure appropriate treatment.

The Role of Fever in the Immune Response

While fevers can be uncomfortable and sometimes concerning, they play a vital role in the body’s immune response. Understanding this function can help alleviate some of the anxiety associated with fevers and provide insight into why healthcare providers don’t always rush to lower temperatures.

How does fever support the immune system? Elevated body temperatures:

1. Enhance the activity of white blood cells, improving their ability to fight infections
2. Slow down the reproduction of many bacteria and viruses
3. Boost the production of antibodies and other immune system components
4. Increase blood circulation, allowing immune cells to reach infection sites more efficiently

Does this mean we should never treat fevers? Not necessarily. While moderate fevers can be beneficial, high fevers can cause discomfort and, in some cases, lead to complications. The goal is to strike a balance between allowing the fever to support the immune response and preventing potential negative effects.

Fever Myths and Misconceptions

Despite advances in medical knowledge, many myths and misconceptions about fevers persist. Debunking these misconceptions is crucial for proper fever management and reducing unnecessary anxiety.

Common fever myths include:

• Myth: Fevers always indicate a serious illness
• Fact: Many fevers are caused by minor infections and resolve on their own
• Myth: All fevers must be treated with medication
• Fact: Low-grade fevers often don’t require treatment if the person is comfortable
• Myth: Fever itself can cause brain damage
• Fact: Fever-induced brain damage is extremely rare and typically only occurs at temperatures above 107°F (41.7°C)
• Myth: Bundling up helps “break” a fever
• Fact: Excessive bundling can actually increase body temperature and discomfort

By dispelling these myths, individuals can make more informed decisions about fever management and when to seek medical care.

Technological Advancements in Fever Monitoring

The field of fever monitoring has seen significant advancements in recent years, with new technologies offering more accurate and convenient ways to track body temperature. These innovations are particularly valuable for managing fevers in both clinical and home settings.

Some notable technological advancements include:

1. Non-contact infrared thermometers: Allow for quick and hygienic temperature readings
2. Continuous temperature monitoring patches: Provide real-time temperature data over extended periods
3. Smart thermometers: Connect to smartphones for easy tracking and data sharing with healthcare providers
4. Thermal imaging cameras: Used in public spaces for rapid fever screening

How do these advancements benefit fever management? They offer more precise measurements, enable early detection of temperature spikes, and facilitate better communication between patients and healthcare providers. This can lead to more timely interventions and improved outcomes in fever-related conditions.

The Future of Fever Research

As our understanding of the immune system and fever mechanisms continues to grow, researchers are exploring new avenues for fever management and treatment. These emerging areas of study hold promise for more targeted and effective approaches to dealing with high fevers.

Some exciting areas of fever research include:

• Personalized fever thresholds: Developing individualized guidelines based on age, health status, and genetic factors
• Novel antipyretic medications: Creating drugs that modulate fever response without suppressing beneficial immune functions
• Fever-induced metabolic changes: Studying how fever affects metabolism to develop better supportive treatments
• Artificial intelligence in fever prediction: Using AI algorithms to predict fever patterns and potential complications

These research directions may lead to more nuanced and effective strategies for managing fevers in the future, potentially reducing the need for broad-spectrum interventions and improving patient outcomes.

Treat High Fever in Children and Adults

• Online Care
• Scheduled Care
• Locations
• Careers
• Pay My Bill
• Testimonials

Eagan, Woodbury and Vadnais Heights

Contact UsCareersFAQsUR Blog

The Urgency Room is your comprehensive one-stop location for your urgent needs. Our standalone facilities are expertly outfitted with emergency trained providers and  state-of-the-art equipment to handle the variety of aches, pains, breaks, and illnesses that come through our doors every day.

Schedule an appointment at any of our three locations, open 365 days a year, including holidays, from 8:00 AM to 9:00 PM. Our telehealth services are available from 8:00 AM to 8:00 PM. Situated in Woodbury, Vadnais Heights, and Eagan, The Urgency Room is the quick and convenient alternative to overcrowded and understaffed emergency rooms for residents throughout the Twin Cities.

If you or your child has a high fever, don’t hesitate to seek care. Don’t drudge through hours of waiting at your typical emergency room. Instead, get evaluated and treated at your nearest Urgency Room, fast. With short wait times, friendly staff, and highly experienced providers, you’ll be back to yourself in no time.

What Is Considered a High Fever in Adults?

Most adults have a baseline temperature of 98.6 F. Generally, temperatures of 103 degrees Fahrenheit or higher are considered high for an adult. However, when an adult sustains a temperature higher than 100 degrees Fahrenheit for an unusually long period of time, it could also be cause for concern. It’s best to act on the safe side and seek care at The Urgency Room right away. Fevers can be very complex and can stem from many different types of illnesses or infections. The providers at The Urgency Room can accurately assess and diagnose the source of your high fever. 

Fevers occur when the hypothalamus, your body’s “thermostat,” increases your body’s temperature because of fever-producing substances called pyrogens. When pyrogens are released into your blood, you could wind up with a dangerously high fever. Pyrogens could come from bacteria, drugs, toxins, viruses, and fungi. The severity of fever and its detrimental results increase as your condition persists—which is why getting a high fever treated sooner is always your best option. 

High Fever Thresholds 

Once a fever goes beyond the high level, an adult enters dangerous fever levels (104 F – 107 F). This dangerous level, also known as hyperpyrexia, is considered a medical emergency and you should seek medical care immediately.  

To give you a rough idea of the fever levels in adults, here’s a list: 

• Low high fever: 100 F – 101 F
• Intermediate high fever: 102 F
• Serious high fever: 103 F – 104 F
• Hyperpyrexia: 104 F – 107 F

It is sometimes difficult to pinpoint the source of a fever as there are an incredible number of diseases and illnesses that have high temperatures as a side effect or symptom. And while fevers most frequently accompany a viral illness, our providers will try and get down to the exact source. 

What Is Considered a High Fever in Children?

A high fever in a child may be any temperature higher than 100 degrees Fahrenheit, especially if that temperature is sustained above the 100-degree threshold for extended periods. If your child’s temperature is not showing signs of reducing, you should seek emergency care.

The severity and damage a fever can cause vary by the age of the child. Younger children and infants should be seen by a medical provider sooner than an adult or teenager would with a similar temperature.

In addition to high or rising temperatures that last longer than 24 hours, a child with a high fever could have other obvious symptoms. Be on the lookout for severe diarrhea, dehydration, repeated vomiting, seizures, or rash. Your child is especially susceptible to serious infections if they have any type of immune disorder or haven’t received immunizations.

When minutes matter, especially if your child has a high fever, get to your nearest Urgency Room—we have shorter wait times and state-of-the-art equipment to treat your illness fast.        

When Is It Time to Seek Care?

As listed above, the duration one with a high fever should wait to seek medical treatment varies depending on age. An infant should be seen right away even if it has temperatures constituting a low fever in adults. Similarly, an adult can wait until the fever persists for a day or two while a child, depending on its age, should be seen as soon as they’ve had a fever of any temperature for longer than 24 hours.

You may try fever-reducing medicines (ones containing acetaminophen) before seeking medical care, however, always consult with a medical provider if you are uncertain what medicine to administer for your child. 

Consider Using Telehealth for Less Intense Fevers

If you’re not experiencing a medical emergency but you’re concerned about your fever level or that of your child, consider using online care services. The Urgency Room utilizes video technology for patient convenience and overall experience improvement. You won’t have to waste precious time in your vehicle or using public transportation, not to mention waiting in the lobby. Just follow the instructions on our Online Care page.

How Can The Urgency Room Treat High Fevers in Adults and Children?

The Urgency Room is well-equipped to take care of you or your child when experiencing a high fever. Prolonged fever or dangerously high fevers can cause an onslaught of residual health problems, so it is always best to seek care rather than ignore the problem.

All three Urgency Room locations are equipped with providers and staff who have extensive emergency room experience as well as equipment to assess, diagnose and treat your illness or injury. 

Up-to-date technology at our Urgency Room locations includes:

• X-ray machines
• CT scanner
• Ultrasound
• High-complexity lab
• Sedation for adults and children

The Urgency Room also has a large library of at-home aftercare videos for you to reference after you’ve left our in-person care. Before, during, and after illness, The Urgency Room has your well-being as our first priority.

Medical  Care for a Wide Range of Symptoms, Available In-Person or Online

Looking for fast, trusted medical care in the Twin Cities? The Urgency Room can help you avoid the crowds and long waits of typical emergency rooms. Our facilities are owned and operated by members of the Emergency Physicians Professional Association. Our board-certified physicians and staff are here for you when you need medical care the most.  

We’ll always provide you with exceptional medical care closer to home. Schedule your non-emergent visits or log in online to start a visit with one of our providers online.

Fever in adults – Harvard Health

Fever is one of the body’s most effective ways of fighting infection. It is part of your body’s defense against infection-causing germs.

You get a fever most often when your body is trying to kill infectious invaders such as viruses or bacteria. A higher body temperature helps the immune system respond more vigorously to the attack, and makes it harder for these microbes to survive.

What is considered a fever in adults?

The average body temperature is 98.6° F (37°C). But “normal” body temperature varies from person to person. It also changes during the day, rising a bit after you eat or exercise. Body temperature is often higher in the afternoon than it is when you wake up in the morning.

Fever means a body temperature of 100. 4° F (38°C) or higher.

High fever in adults

While any temperature above your normal temperature range is considered a fever, there are different levels of fever severity:

• Low-grade: 99.1 to 100.4 F (37.3 to 38.0 C)
• Moderate-grade: 100.6 to 102.2 F (38.1 to 39.0 C)
• High-grade: 102.4 to 105.8 F (39.1 to 41 C)

When to worry about fever

If you have a fever over 104°F (40°C), you should call your doctor.

Seek medical help right away if you have a fever along with any of these symptoms:

• seizure
• loss of consciousness
• confusion
• stiff neck
• trouble breathing
• severe pain anywhere in the body
• swelling or inflammation of any part of the body
• vaginal discharge that is discolored or smells bad
• pain when urinating or urine that smells bad.

Causes of fever

An infection, such as the flu, is the most common cause of fever.

Other conditions can also cause a fever. These include diseases that produce inflammation, such as rheumatoid arthritis; reactions to drugs or vaccines; and even certain types of cancers.

Accompanying symptoms

The following symptoms may also accompany fever:

• sweats
• chills
• headache
• achy muscles
• lack of desire to eat
• rash
• restlessness
• weakness.

A very high fever can cause confusion, extreme sleepiness, irritability, and seizures.

Diagnosing the cause of a fever

To help determine why you have a fever, your doctor will ask you about:

• other symptoms such as coughing, abdominal pain, vomiting, diarrhea, or pain when urinating
• recent surgeries or injuries
• recent vaccinations
• new drugs you may be taking
• recent travel, particularly travel abroad.

How to treat a fever at home

By itself, fever is usually harmless, though a high fever can be miserable. These steps may help you feel better:

• Drink plenty of fluids to help cool your body and prevent dehydration.
• Eat light foods that are easy to digest.
• Get plenty of rest.
• Take ibuprofen (Advil, Motrin, or others), naproxen (Aleve, Naprosyn, or others), or acetaminophen (Tylenol, others) to help relieve head and body aches and lower your temperature.
• Take a slightly warm (not cool) bath, or apply damp washcloths to the forehead and wrists.

Image: yacobchuck/Getty Images

Body temperature

Well, who said that your ideal temperature is 36.6 ° C? And if the thermometer is 35.4 or 37.2 ° C and you feel good at the same time? Is it worth it in this case to sound the alarm, swallow packs of pills for prevention and run to the hospital?
The body temperature of a young healthy person ranges from 36. 2 to 36.8 °C. And only for 5% of people are normal indicators below or above the average. That is why some, for whom the lower limits are characteristic, “almost die” at 37.2 ° C, while others simply do not notice such a slight increase.
You can find out what the norm is for you personally if you measure your temperature in the morning, afternoon and evening if you feel well. After all, during the day it changes: the lowest is before noon, when the body is still sleeping, then it gradually rises and reaches a maximum by about 4 pm.

How to measure temperature correctly?

The temperature of the skin is not the same in different parts of the body, for example, on the foot – only about 20 °C. In sports medicine, there is the concept of weighted average skin temperature (WTC), which is measured at five points (in the forehead, chest, hand, thigh and lower leg).
The most common “home” way to find out the temperature is to put a thermometer under your arm. But it is the least reliable. The temperature in the mouth fluctuates depending on the cold or hot food eaten. It is best to put a thermometer, and only electronic, in the ear or rectum.
If you don’t have a thermometer handy, try to determine the temperature by touching your forehead with your lips or the back of your hand.

What can influence the temperature?

First of all – the individual characteristics of the organism. As a rule, people with a slow metabolism have a lower temperature than those with a stable and high metabolism. But if, despite feeling good, you continue to worry about your body temperature being too low, try a school favorite method: put a few drops of iodine on a sugar cube and eat it. If the thermometer creeps up, then everything is in order: the body is working properly, and low readings are your norm.

Factors affecting a woman’s temperature:

Menstrual cycle. 2 weeks before it starts, as a rule, it decreases, and on the first day it increases.
Pregnancy. For no apparent reason, for several months it is increased by several tenths of a degree in 30% of expectant mothers.
Smoking. Nicotine interferes with normal blood circulation, reduces the supply of oxygen to the vessels. These deviations in the system lead to a decrease in body temperature.
Age. Over time, she may change her “healthy” indicators. By the age of 65, they often decrease by 1-2 °. There are some advantages to this: for example, it becomes easier for women to endure the sweltering heat.
Genetics, lifestyle, environment. True, the significance of these factors is not so great.

Our body has the ability to maintain a constant body temperature. Neither the African heat nor the Russian cold can shake it. He possesses this feature thanks to a special organ located in the cerebral cortex – the hypothalamus. It is he who controls the heat balance of a person.
If we are hot, the vessels dilate, passing more blood, the skin heats up, sweating increases, as a result of which the temperature drops. If it is cold outside, the vessels, on the contrary, narrow, the skin remains cold and does not give off heat. By the way, the same hypothalamus makes us shiver when it’s cold. We tremble – and warm up. A person spends a huge amount of energy to maintain the thermal balance, thanks to which he can be active and vital at any time of the year. Without this ability, people would be forced to roam all the time after good weather.

Temperature and sports

During sports, metabolic processes are activated, cardiac output, blood minute volume, its flow to the skin increase … Such changes lead to an increase in temperature. During normal training, it is small – a few tenths of a degree. In addition, our brain quickly compensates for the costs of habitual exercises and brings the indicators back to normal. Another thing is extreme loads, when the recovery process takes longer, since the changes are very significant. For example, marathon runners have a body temperature of 38.9 at the finish line.°C regardless of the weather. If you dared to run such a race, then the thermometer could rise to 40 ° C and above. It’s just that professional athletes have better thermoregulation mechanisms than ordinary people. In other words, they begin to sweat when there is still plenty of strength left. And an amateur often already suffocates, but at the same time remains completely dry, which is harmful to the body.

Abnormalities

There are situations in which the hypothalamus, which is responsible for maintaining heat balance, needs outside help. Fever is one of the ways the body fights infection, when the inflammatory process ends with the release of blood from unnecessary chemical elements at the cellular level. But if the elevated temperature does not fall below 38.5 ° C for several days, it is necessary to start taking some kind of antipyretic, because the internal organs of a person cannot function for a long time at a high temperature.
The body also needs help when the temperature drops to 35 ° C, which happens due to prolonged hypothermia (hypothermia). In this case, a warm drink and warm clothing are needed. A slight decrease in temperature can also be observed in the post-traumatic period, as well as in elderly people due to low activity or malnutrition.
Often, critical changes in body temperature are caused by inadequate behavior of the person himself. Follow the advice: always dress appropriately for the weather, do not sit in the steam rooms and do not jump into the hole as soon as you decide to become a walrus.

Interesting facts

The highest temperature – 46.5 ° C – was registered in 52-year-old American Willie Jones in 1980. He suffered heatstroke and was taken to the hospital. He was discharged 24 days later in a satisfactory condition. The lowest temperature – the Russian Viktor Kharin in 1960. They found him outside on a frosty night. The protocol says: “A numb body in icy clothes. When tapped, a dull sound is heard, as from blows on wood. The body surface temperature is below 0 °C, signs of life are not determined. Diagnosis: general freezing, clinical death. When the victim was placed in a hot bath and resuscitation began, after 1.5 hours he developed weak breathing and a pulse. For 12 hours, the body temperature of the man rose to 36 ° C.

There is a special method of treatment – pyrotherapy (from the Greek “fire”), when a person is specially injected with pyrogens – substances that cause fever. The feverish state is accompanied by the activity of the pituitary-adrenal system, the acceleration of blood flow in the internal organs by 2-3 times, and the stimulation of the immune system. At such a high temperature, blood clots dissolve more efficiently, dense scar tissue dissolves, degenerate tumor cells die, and the activity of the nervous system is restored.

The need to introduce a single temperature scale arose at the beginning of the 18th century – by that time there were already more than 30 of them. The German physicist Gabriel Daniel Fahrenheit and the Swedish astronomer and physicist Anders Celsius, who was the first to manufacture alcohol and mercury thermometers, took up this task. Both proceeded from the fact that 1 degree is equal to the difference between the temperatures of boiling water and melting ice at atmospheric pressure. But everyone defined the points of melting ice and boiling water in their own way: Celsius as 1/100, Fahrenheit as 1/180. Both scales “took root” and are still used today.

Temperature scale. Celsius, Fahrenheit, Kelvin, Réaumur

History

The word “temperature” arose in those days when people believed that hotter bodies contained a greater amount of a special substance – caloric than less heated ones. Therefore, temperature was perceived as the strength of a mixture of body substance and caloric. For this reason, the units of measure for the strength of alcoholic beverages and temperature are called the same – degrees.

From the fact that temperature is the kinetic energy of molecules, it is clear that it is most natural to measure it in energy units (ie in the SI system in joules). However, temperature measurement began long before the creation of molecular kinetic theory, so practical scales measure temperature in conventional units – degrees.

Kelvin scale

Thermodynamics uses the Kelvin scale, in which the temperature is measured from absolute zero (the state corresponding to the minimum theoretically possible internal energy of the body), and one kelvin is equal to 1/273.16 of the distance from absolute zero to the triple point of water (the state at where ice, water and water vapor are in equilibrium). The Boltzmann constant is used to convert kelvins to energy units. Derived units are also used: kilokelvin, megakelvin, millikelvin, etc.

Celsius scale

In everyday life, the Celsius scale is used, in which the freezing point of water is taken as 0, and the boiling point of water at atmospheric pressure is taken as 100 °. Since the freezing and boiling points of water are not well defined, the Celsius scale is currently defined in terms of the Kelvin scale: degrees Celsius equals Kelvin, absolute zero is taken to be -273.15 °C. The Celsius scale is practically very convenient, since water is very common on our planet and our life is based on it. Zero Celsius is a special point for meteorology, since the freezing of atmospheric water changes everything significantly.

Fahrenheit

In England and especially in the USA, the Fahrenheit scale is used. This scale is divided by 100 degrees from the temperature of the coldest winter in the city where Fahrenheit lived to the temperature of the human body. Zero degrees Celsius is 32 degrees Fahrenheit, and a degree Fahrenheit is 5/9 degrees Celsius.

The current definition of the Fahrenheit scale is that it is a temperature scale where 1 degree (1°F) equals 1/180 of the difference between the boiling point of water and the melting point of ice at atmospheric pressure, and the melting point of ice is +32°F. The temperature on the Fahrenheit scale is related to the temperature on the Celsius scale (t ° C) by the ratio t ° C \u003d 5/9(t °F – 32), that is, a change in temperature of 1 °F corresponds to a change of 5/9 °C. Proposed by G. Fahrenheit in 1724.

Reaumur scale

Proposed in 1730 by R. A. Reaumur, who described the alcohol thermometer he invented.

Unit – degree Réaumur (°R), 1 °R is equal to 1/80 of the temperature interval between the reference points – the temperature of melting ice (0 °R) and boiling water (80 °R)

1 °R = 1.25 °C

The scale is now out of use, it has been preserved for the longest time in France, the author’s homeland.

Comparison of temperature scales

¹ Normal human body temperature is 36.6°C ±0.7°C, or 98.2°F ±1.3°F. The commonly quoted value of 98.6 °F is an exact Fahrenheit conversion of the 19th century German value of 37 °C. Since this value does not fall within the range of normal temperature according to modern concepts, we can say that it contains excessive (incorrect) accuracy. Some values ​​in this table have been rounded.

Comparison of Fahrenheit and Celsius scales