The temperature rises. An "exothermic" reaction releases heat energy in the process.
The energy release of an exothermic reaction is released to the surroundings.
The acid / base neutralization reaction is exothermic, so heath is produced, temperature will go up when adiabatic
An exothermic reaction is a reaction that happens when energy is release. This means that a bond is being broken. Because the bond is broken, it has undergone an exothermic reaction.
It will decrease as heat is removed from the environment and added to the products of the reaction.
Let's think about what happens in the combustion of methane. Take natural gas for example (methane) used to heat homes, or used in stoves. The product is heat, therefore heat is given off. Therefore EXOTHERMIC.
The energy release of an exothermic reaction is released to the surroundings.
The acid / base neutralization reaction is exothermic, so heath is produced, temperature will go up when adiabatic
To answer it, you have to imagine small particles in a solution. Let's take a simple reaction like A + B -> C To react, A and B have to bump each others. If you heat the solution, atoms will move faster, so you will increase the probability of having shocks between A and B, then you will speed the reaction. It's simplified, but it almost explains what really happens.
An exothermic reaction is a reaction that happens when energy is release. This means that a bond is being broken. Because the bond is broken, it has undergone an exothermic reaction.
they die
It will decrease as heat is removed from the environment and added to the products of the reaction.
In an exothermic reaction, the total making and breaking of bonds results in a net release of energy.
the temperature should increase not decrease
No. It is endothermic when this happens.
Let's think about what happens in the combustion of methane. Take natural gas for example (methane) used to heat homes, or used in stoves. The product is heat, therefore heat is given off. Therefore EXOTHERMIC.
An exothermic reaction occurs (this is when heat is produced). There's a link between the mass of copper sulphate and the temperature rise of the water.
It is released into whatever medium is there to take it - air, for instance.