Individual molecules of gas might be very hot, but there are too few of them to affect a thermometer much.
Then the energy lost through black body radiation is more than the energy gained from the few molecules around it, making the thermometer temperature decrease until the lower equilibrium temperature is reached.
A thermometer may show a low temperature in the thermosphere because the density of particles is so low that it cannot effectively transfer heat to the thermometer. The thermosphere is highly influenced by solar activity, leading to high temperatures despite the low density of particles.
If a thermometer were placed in the thermosphere, it would register far below 0 degrees C! This may seem strange since the thermospher is so hot.(see answer to "what is one characteristic of each layer of the earth") How can this be explained? Temperatureis a measurement of how fast particles in the air move. The faster the air particles move the higher the temperature. And the particles present in the thermosphere are moving very fast. THerefore the particles themselves are very hot. But these particles are vry few and very far apart. There are not enough of them present to bombard a thermometer and warm it. So the thermometer would re3cord a temperature far below 0 degrees C.
The thermosphere has high temperatures because it absorbs intense solar radiation due to its position in the atmosphere, causing the molecules to heat up. However, despite the high temperature, the thermosphere is not hot in the conventional sense as the density of the particles is very low, so a thermometer would not register the temperature as high as it feels.
The prefix "thermo" in thermosphere refers to heat or temperature. The thermosphere is the layer of the Earth's atmosphere where temperatures increase with altitude due to the absorption of solar radiation.
No, a clinical thermometer is not suitable for measuring the temperature of a candle flame. Candle flames burn at temperatures much higher than the range typically measured by a clinical thermometer. To measure the temperature of a candle flame, a specialized high-temperature thermometer or pyrometer would be more appropriate.
An ordinary thermometer would show a low temperature in the thermosphere because the thermosphere is characterized by very low air density and high energy particles. Regular thermometers rely on air molecules to transfer heat, but in the thermosphere, the low density of air molecules means that the thermometer cannot accurately measure the temperature of the sparse particles present.
A thermometer may show a low temperature in the thermosphere because the density of particles is so low that it cannot effectively transfer heat to the thermometer. The thermosphere is highly influenced by solar activity, leading to high temperatures despite the low density of particles.
Because the particles in the thermosphere are very spaced out. A normal thermometer would even measure it below zero, but it has a very high temperature.
If a thermometer were placed in the thermosphere, it would register far below 0 degrees C! This may seem strange since the thermospher is so hot.(see answer to "what is one characteristic of each layer of the earth") How can this be explained? Temperatureis a measurement of how fast particles in the air move. The faster the air particles move the higher the temperature. And the particles present in the thermosphere are moving very fast. THerefore the particles themselves are very hot. But these particles are vry few and very far apart. There are not enough of them present to bombard a thermometer and warm it. So the thermometer would re3cord a temperature far below 0 degrees C.
The thermosphere has high temperatures because it absorbs intense solar radiation due to its position in the atmosphere, causing the molecules to heat up. However, despite the high temperature, the thermosphere is not hot in the conventional sense as the density of the particles is very low, so a thermometer would not register the temperature as high as it feels.
The thermosphere has high temperature because the few molecules present can absorb high-energy solar radiation. However, since there are so few molecules, the heat energy is not readily transferred to a thermometer, so it would not feel hot to us.
The prefix "thermo" in thermosphere refers to heat or temperature. The thermosphere is the layer of the Earth's atmosphere where temperatures increase with altitude due to the absorption of solar radiation.
The temperature referred to as 1800, is the motion energyof the particles there.If you held a thermometer up, it would NOT register that 1800 temperature.At 1800 oC a human would be vaporised.
The thermosphere is the last layer of the atmosphere. Special instruments are needed to measure its temperature because there are very few particles in the thermosphere that would strike a conventional thermometer to heat it.
In case of ordinary thermometer if the thermometer is taken out the body whose temperature has been seen, the Mercury would fall down as the bulb gets cooled. But in case of clinical thermometer even after the thermometer has been taken out of the mouth of the patient the level of mercury would be held at the same level though the bulb falls to the room temperature. So doctor could see the temperature liesurely. To bring back the mercury to lowest level we have to give jerks to the thermometer by shaking it.
A digital thermometer would be most suitable for measuring the body temperature of a patient. It provides an accurate reading quickly and is safe and easy to use.
how would a temperature reading be different if the thermometer were over unshaded asphalt