Between gas molecules, yes, it will.
When the concentration of a solution increases, the particles are moving quicker as they have more energy. This results in more collisions between the substrate and the solution, thus resulting in an increased rate of reaction. Even if the particles are moving at the same speed, with a higher concentration, there is a higher probability of colliding with another reactant molecule rather than a solvent molecule.
You Don't. You need higher amounts of Oxygen at higher temperatures.
No, as with any gas carbon dioxide is less soluble at higher temperatures.
Because it increases the probability of collisions
As temperature increase the speed and energy of molecules increase and the collisions are more probable.
Collisions between solvent molecules and solute are more frequent at higher than lower temperatures.
More collisions is an advantage.
Intersections located in urban areas have higher rates of vehicular accidents/collisions.
At higher temperatures.
When the concentration of a solution increases, the particles are moving quicker as they have more energy. This results in more collisions between the substrate and the solution, thus resulting in an increased rate of reaction. Even if the particles are moving at the same speed, with a higher concentration, there is a higher probability of colliding with another reactant molecule rather than a solvent molecule.
reaction rate depends upon three things: temperature (higher temperature means faster reactions), particle size (smaller particles leading to an increase in surface area means faster reactions) and concentration of reactants (the higher the concentration, the higher the chance for particle collisions). Rate of reaction is based upon particle collisions. Higher temperatures yield more and stronger collisions, hence there is higher rate of reaction. Smaller particles (giving more surface area) means more collisions (reactants are not "stuck" on the inside of clumps of substances, waiting to collide when the outer particles get out of the way). Higher concentrations let more particles find each other to react; time is not wasted by substances floating around not having a chance to collide with other substances.
You Don't. You need higher amounts of Oxygen at higher temperatures.
Higher pressures cause more molecular collisions which in turn causes a greater rate of diffusion. The opposite is also true - lower pressures cause a decreased rate of diffusion.
The temperatures at the equator tend to be higher because the equator receives more direct sunlight.
No, as with any gas carbon dioxide is less soluble at higher temperatures.
It is widely accepted within the scientific field that higher levels of heat to cause particles to move more quickly. An air molecule, for example, will be moving much faster at higher temperatures than it would at lower temperatures.
Increasing temperature affects a reaction in two ways: 1) at higher temperatures the molecules are moving around faster and collisions and reactions are more frequent, so the reaction - both forward and reverse - speed up. 2) at higher temperatures, the equilibrium state will shift. In some cases it will shift the equilibrium towards the product. In other cases, it will shift it back towards the reactants.