The increase from 3 degrees Celsius to 6 degrees Celsius represents an increase of 3 degrees, not doubling the temperature. Doubling the temperature would require an increase from 3 degrees Celsius to 6 degrees Celsius.
Doubling temperature means increasing it by a factor of 2. In this case, going from 3 to 6 degrees Celsius represents an increase of 3 degrees, not a doubling of the initial temperature. To double the initial temperature of 3 degrees Celsius, it would need to increase to 6 degrees x 2 = 12 degrees Celsius, not just 6 degrees.
This will depend on what kind of temperature scale you intend to use.Degrees Celsius, Degrees Fahrenheit or Kelvin.Celsius:If we have a positive number, say 10 degrees Celsius, then we would get 20 degrees Celsius.If we have a negative number, say -10 degrees Celsius, then we get -20 degrees Celsius. It will simply be twice as cold.Fahrenheit:Exactly the same rules apply as for Celsius in the examples of Celsius.Kelvin:Kelvin is an absolute that is "only" dealing with positive numbers.double of 10 Kelvin is 20 Kelvin. Double again and we get 40 Kelvin. Easy as pie.Temperature indicate how much energy there is in an object or a mix of objects.When doubling the temperature in Celsius, we add to this energy.When doubling the temperature in Fahrenheit, we add to this energy, but not as much as we would in Celsius.When doubling the temperature in Kelvin, then we actually double the energy-content. Much more than when using either Celsius or Fahrenheit.Increased temperature mean increased speed of reactions.
Zero degrees Celsius (or centigrade) is the same as 32 degrees Fahrenheit. Therefore, if you convert the temperature to Fahrenheit, and we are working on a twice (as cold) minus reduction, then tomorrow could be 16 degrees Fahrenheit?it doesn't ask for Fahrenheit. if it is 0 now and twice as cold tomorrow, 0 x 2 = 0. it will be 0 degrees Celsius.If we use the Kelvin scale 0'C = 273.15'K so twice as cold would be 546.3' K or 273.15' C not a realistic answer for Earthly temperatures.Another Answer"Double the coldness" is meaningless. "Cold" is merely a lack of heat. Temperature is a measure of heat, not cold. Moreover, even if you could measure "coldness", you would have to use some unit of measurement that starts at zero when there is no coldness, and increases as it gets colder (the opposite of temperature). I'm not talking about Kelvin, because the zero on the Kelvin scale is set where there is no heat, not where there is no coldness. Presumably, the point of "zero coldness" would be the point at which the highest possible temperature is obtained, and therefore there is no coldness at all. But theoretically, there is no maximum temperature, and therefore no point of "zero coldness". But, even if you could establish what the maximum possible temperature (and therefore the zero point on your "coldness" scale) was, it would be so high that doubling coldness would result in a temperature of less than absolute zero, which is impossible. For example, even if the maximum possible temperature was as low as 600 degrees F (and we know that the average star burns many, many times hotter than that), 600 degrees F is approximately 316 degrees C, or 589 K. If you set your "zero coldness" at this point, 589 K, and increased your coldness measure by 1 for every 1 degree decrease in K, your coldness measurement would reach 316 at 0 degrees C. If you double this, you have a coldness measurement of 632, which equates to a Kelvin temperature of -43. But negative Kelvin temperatures do not exist. QED - there is no such thing as "twice as cold".
On most irons, the setting that corresponds to 350 degrees Fahrenheit is typically labeled as "linen" or "cotton" setting. Make sure to double-check your iron's user manual for specific temperature settings, as they can vary between different models.
It would have to be increased to 2.2 times absolute room temperature.Absolute room temperature is about 20°C, or about 293K.(2.2) x (293) = 644.6K or 371.6°C . (about 701°F.)
Doubling temperature means increasing it by a factor of 2. In this case, going from 3 to 6 degrees Celsius represents an increase of 3 degrees, not a doubling of the initial temperature. To double the initial temperature of 3 degrees Celsius, it would need to increase to 6 degrees x 2 = 12 degrees Celsius, not just 6 degrees.
17 degrees Celsius is equal to 62.6 degrees Fahrenheit.
At approximately -12.3 °F the equivalent temperature in Celsius is -24.6 °C. This is the only temperature at which the value of the temperature in Celsius is double that of the equivalent Fahrenheit temperature. To be more precise, the temperatures are -12 4/13 °F and -24 8/13 °C.
Assuming the reaction is first order with respect to both HCl and Na2S2O3, increasing the temperature by 10 degrees Celsius will approximately double the reaction rate. So, you would need to heat the reaction from 25 degrees Celsius to 35 degrees Celsius to achieve this.
To double the pressure, you will need double the temperature. Note that you have to use the absolute temperature (usually Kelvin) for this calculation. So, for example, if you start off at 100 degrees Celsius, you convert that to Kelvin (add 273 to convert from Celsius to Kelvin), double the number to get double the temperature, then convert back to Celsius (subtract 273 from the previous result).Similarly, if you start out at a certain number of degrees Fahrenheit, you must first convert that to Kelvin, then double the result, and finally convert this last result back to Fahrenheit.
58 F
This is a poorly stated question. What do you mean by size? Volume or mass? By your question, if all other factors are constant, increasing the size, (whatever you mean by that) will have no effect. If you mean that you have a mass at a certain temperature and you double the mass at that temperature, then the total energy doubles.
Unsaturated fats have double bonds in their chemical structure, making them liquid at room temperature and healthier for the heart. Saturated fats have no double bonds, are solid at room temperature, and can raise cholesterol levels, increasing the risk of heart disease.
In general, as temperature rises, so does reaction rate. This is because the rate of reaction is dependent on the collision of the reacting molecules or atoms. As temperature rises, molecules or atoms respond with increased motion, increasing the collision rate, thus increasing the reaction rate.
Since 0 degrees Celsius equals 273 degrees Kelvin, then air that is twice as hot would be equal to 546 degrees Kelvin, which when converted back to Celsius is equal to 273 degrees Celsius. The natural urge is to double the Celsius temperature, let's say it was 5 degrees Celsius, then you'd probably want to double it to 10 degrees Celsius, however, that isn't correct. True temperature is measured in Kelvins, so you must convert to Kelvin to find out the true temperature conversion. Hope this answers the question.
increasing voltage
The average is about 56 degrees Fahrenheit....i think....someone should double check.