Temperature affects oxygen concentrations directly. When the temperature increases, oxygen concentration will decrease. In low temperatures, oxygen has higher concentration levels .
Concentration affects reaction rate as the higher the concentration is in the solution the quicker a chemical reaction will occur. This is because the particles need to collide and connect to form the new substance. If the particles have more energy, then they will collide and connect more efficiently.
Temperature affects reaction rate as the temperature (high) gives more energy to the particle allowing them to connect and collide more efficiently. Because the more energy the particles have the better it is because then they will connect and collide more efficiently to form the new substance.
Every solution combination has a saturation point. For the following examples, I will use salt dissolved in glass of water.
An undersaturated concentration means more salt could be dissolved in the water.
A saturated concentration means no additional salt could be dissolved in the water.
An oversaturated concentration means salt will precipitate from the water until it reaches the saturation point.
The higher the temperature is, the more solute can be dissolved. You can have a lot of fun with this. Boil some water and add sugar until no more will go into solution, then dip a piece of string in it and leave it there. As the water cools, the sugar solution will go into "supersaturation"--meaning more sugar than allowed for temperature is in the water, and some will drop out in crystal form. It will drop out by attaching itself to the string...which is how they make rock candy.
The application of heat increases the speed of a reaction, so will reduce the time taken for the equilibrium state to be reached
Physical Uncomfortable
Task difficulty
Physiological arousal.
Temperature affects oxygen concentrations directly. When the temperature increases, oxygen concentration will decrease. In low temperatures, oxygen has higher concentration levels .
In general, higher temperatures increases the rate of reaction. Concentration has a similar effect. A higher concentration have more reaction points in a medium.
Yes it does.
The temperature of the nitrogen at room temperature is whatever the temperature of the room is.
Room temperature IS room temperature, you question makes no sense.
i dont know really......cos u have to be specific what volume is it in how many moles room temperature pressure precautions etc
Chemically, concentration affects the rate of chemical reaction.When you study if you are not concentrated, you will not remember as much.
osmosis is affected by the concentration gradient the lower the concentration gradient the faster the speed of osmosis
Temperature, Concentration and size of molecules :)
Yes, the concentration of radon depends also on room temperature.
The liquid content temperature its concentration and the area's environment being concreted
9.3 g
Room temperature can affect nail products if it is too hot, causing them to melt. It is also not a good idea to leave nail products in a room that is humid, which can mess up the consistency.
A chemical reaction is affected by temperature, pressure, presence of a catalyst , radiation and concentration. Hope I helped...
Latitude Affects temperature.
it is a warm color, therefore it affects warm temperature. it is a warm color, therefore it affects warm temperature.
Good question. it is because then the heat affects it and then it starts to freeze.
Temperature, concentration, sometimes also internal fluid velocity. Moreover density, type of liquid, surface where it flows, viscous drag.
The room temperature is...the room temperature !!
the experimental rate law of a simple reaction A->B+C is v=k[A].calculate the change in the reaction rate when:(a) the concentration of A is tripled (b) the concen-tration of A is halved