Increase
would molarity increase, decrease, or stay the same if the room temperature increased by 5 degrees centigrade
Heat, because when u r in a room and u have a hotter temperature than room temperature heat escapes.
Oxygen and nitrogen have equal average kinetic energy per molecule at room temperature. This is assuming that both oxygen and nitrogen molecules are in fact at room temperature.
An exact relation doesn't exist.
yes it does
my bald headed granny
due to the poor conduction at room temperature,the intrinsic semiconductor as such,is not useful in the electronic devices.hence,the current conduction capability of the intrinsic semi conductor should be increased. this can be achieved by adding a small amount of impurity to the intrinsic semi conductor
would molarity increase, decrease, or stay the same if the room temperature increased by 5 degrees centigrade
38% of energy
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.)
Objects that do not have a power source, will eventually take up the same temperature of the room. Measuring the room temperature, gives you a baseline energy level, so that energy levels of other objects can be monitored
room temperature instrinsic s.c as a conducter
Gasoline
Heat (thermal energy) goes from the warmer thing to the colder thing. So, since your body is warmer than the room, your body loses thermal energy to the room.
Some non-metals like carbon, sulphur, phosphorus,selenium iodine are solids at room temperature. carbon is also a solid at room temperature and even though Non-metals are not able to conduct electricity or heat very well. As opposed to metals carbon in the form of powdered graphite allowed its use as a semiconductor
because the thermal energy in the liquid that is room temperature .There is more thermal enregy in the room temperature liquid so it will move faster.
It is desirable to have water a few degrees colder than room temperature when the initial temperature was taken for accuracy to be achieved. This is affected by the amount of heat energy which escapes the surroundings when the water is above room temperature.