Yes, they can. Physicists at the Ludwig-Maximilians University Munich and the Max Planck Institute of Quantum Optics in Garching was recently able to cool a gas to negative Kelvin.
Finding negative Kelvin shouldn't be thatsurprisingconsidering that temperature is a measure of atomic movement. If you cool down an atom so that it stops moving relative to itself (0 Kelvin), the atom will still be moving with both Earth's rotational speed relative to the center of the Earth, and Earth's orbital speed relative to the center of the Solar system.
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1. It is not possible; the recent experiments of Germans and the old studies of British (Purcell et alii in the years 1950-1952), I suppose that have another meanings. See also the first answer of JFK.
2. The relation between the motion of the Universe and the temperature of the atom is a nonsense.
Yes, it can snow in negative temperatures. Snow can form and fall when the air temperature is below freezing, which is typically below 0 degrees Celsius or 32 degrees Fahrenheit.
The Kelvin scale is based at absolute zero. The Kelvin scale was defined when the scientist William Thomson (1st Baron Kelvin) calculated the absolute minimum thermal energy an object can have. He decided to shift the Celsius scale so that 0 would be equivalent to having zero thermal energy (aka absolute zero).
On a thermometer, temperatures above zero are written as positive and below zero as negative. How will a reading of 3 degrees celsius below zero be written?
130 degrees Celsius minus negative 110 degrees Celsius is equal to 240 degrees Celsius.
There are no negative Kelvin temperatures, as it sets 0 K as absolute zero, the lowest possible temperature of matter.0 degrees Celsius is approximately POSITIVE 273 K (273.15 K). Conversely, 0 K (zero kelvins) is equal to -273.15°C.
Yes.
The Celsius scale can give negative temperatures when measuring temperatures below zero degrees Celsius. This is because zero degrees Celsius is the freezing point of water, and temperatures below freezing are represented as negative values on the Celsius scale.
No. There are no negative kelvin temperatures.
Below zero Celsius refers to temperatures that are below the freezing point of water (0 degrees Celsius). Negative 20 Celsius is a specific temperature that is 20 degrees below zero on the Celsius scale. Both temperatures indicate cold weather conditions.
No, it is not possible to boil water in negative temperatures because boiling occurs at 100 degrees Celsius or 212 degrees Fahrenheit, which is above freezing temperatures.
chemicals with temperatures 0f 38 degree Celsius below 0
First of all, Kelvin absolute zero = -272 degrees Celsius. Secondly, the set of real numbers which contain Celsius numbers and negative Fahrenheit numbers are as follows: Negative X Fahrenheit would = -1 to -31 (because two negatives make a positive, and this would also be consistent with temperatures in the range of 1 to 31 degrees Fahrenheit, along which range all of the Celsius numbers are negative). So, 1 deg F to 31 deg F would then correlate with negative Celsius temperatures (but since we are using the numbers -1 to -31, this would correlate to positive X Celsius). Thus, the range of Kelvin temperatures would be 273 to 304. The reason for which the answer is somewhat convoluted is due to the fact that there do not exist any negative Fahrenheit temperatures for which Celsius temperatures are positive. Thus, negative numbers have to be used in order to "turn the equation around", so to speak, because there is a range of temperatures (1 to 31, in real numbers) Fahrenheit, for which Celsius temperatures are below zero, or in the negative ... due to the fact that deg 0 deg C = 32 deg F.
Yes, both Fahrenheit and degrees Celsius temperatures can be negative. This indicates temperatures below the freezing point of water, which is 32°F (0°C).
Yes, it can snow in negative temperatures. Snow can form and fall when the air temperature is below freezing, which is typically below 0 degrees Celsius or 32 degrees Fahrenheit.
Temperatures cannot be negative, so it is impossible to measure -85 degrees Fahrenheit or -50 degrees Celsius. All the other temperatures given, -20 degrees Celsius and 545 degrees Fahrenheit, are possible to measure.
At -50 degrees Celsius, oxygen would be in a gaseous state. Oxygen condenses into a liquid state at temperatures below -183 degrees Celsius.
Celsius is a scale of temperature. Its range includes both positive and negative numbers.