Want this question answered?
At the molecular scale, increasing the temperature means that the gas molecules are more energetic and are impacting the walls of the container with more momentum, thus imparting more force to the wall per collision. At the macroscopic scale, the ideal gas law is PV = nRT, which tells us that pressure rises linearly with temperature at constant volume.
The temperature must be hot to do so.
One thermometric property that is required is that it must vary linearly with temperature. In liquid-in-glass thermometers, the length of the liquid thread is often used to determine temperature. Thus when temperature increases, the liquid must expand uniformly with temperature, so that it can be used to measure temperature accurately.
the temperature must be kept constant
An electronic scale.
No, you must always use the Kelvin scale when doing gas law problems.
Use the Kelvin scale.
The "Kelvin" scale, which uses the same size of degree as Celsius, but with a zero value at absolute zero. (on the Celsius scale, absolute zero is -273.15° C) There are no negative temperature values on the Kelvin scale.
An absolute scale, such as Kelvin.
For Charles' Law(V1/T1=V2/T2) T1 and T2 must be in Kelvin temperature scale. This way their is no negatives or zero as 0 on the Kelvin scale would be no kinetic energy (absolute zero) which as never occurred as far as we are aware. The Kelvin temperature scale is Celcius minus 273.15 °. The volume however can be whatever you want as long as V1 and V2 are the same in the equation
The Kelvin scale is used.
The Kelvin scale is used.
you need to use kelvin for all the gas laws.
The temperature scale must be absolute (like Kelvin), so it's always "hot" since no negative temps exist in the absolute scales.
It is a scale where, given two measures X and kX, the second is k times as much as the first. This must apply for all real X and k.It may be easier to understand by considering a scale that is nota ratio scale. Commonly used examples are the temperature scale (in degrees C or F). A temperature of 40 degrees is not 4 times as hot as 10 degrees. Only the Kelvin scale meets that requirement.A ratio scale requires a zero that is meaningful.
On the "category axis", the scale may be nominal, ordinal, interval or ratio scale. On the frequency axis the scale must be numerical.On the "category axis", the scale may be nominal, ordinal, interval or ratio scale. On the frequency axis the scale must be numerical.On the "category axis", the scale may be nominal, ordinal, interval or ratio scale. On the frequency axis the scale must be numerical.On the "category axis", the scale may be nominal, ordinal, interval or ratio scale. On the frequency axis the scale must be numerical.
Charles's Law, or the law of volumes, was found in 1787 by Jacques Charles. It says that, for an ideal gas at constant pressure, the volume is directly proportional to its temperature.