It is exothermic. Heat will be released to the environment in this reaction. It is also a single replacement reaction. Here is the equation: 2HCl + Mg --> MgCl2 + H2
Yes it is. When these two chemicals react, the container they are in becomes heated. Exothermic refers to a release of heat and energy.
A single replacement reaction involve the replacement of an element with other in the molecule as in this model:A + B-C = A-C + B.
This is not a replacement reaction. And the silicon chloride is SiCl4.
Correctly represented, it's Mg + 2HCl --> MgCl2 + H2, and it's a single replacement reaction.
It is exothermic. Heat will be released to the environment in this reaction. It is also a single replacement reaction. Here is the equation: 2HCl + Mg --> MgCl2 + H2
A single-replacement reaction
Its exothermic, it produces more energy than needed to switch them.
H2SO4 + Zn --> ZnSO4 + H2 It's an exothermic single-replacement reaction.
Yes it is. When these two chemicals react, the container they are in becomes heated. Exothermic refers to a release of heat and energy.
single replacement reaction
A single replacement reaction involve the replacement of an element with other in the molecule as in this model:A + B-C = A-C + B.
... is an exothermic reaction (opposite of 'endothermic')
A single replacement reaction will not occur. In a single replacement reaction, either a metal will replace another metal in a compound, or an anion will replace another anion in a compound. Click on the related link to see the Wikipedia article on single displacement (single replacement).
It is called an exothermic reaction. Example: a burning candle
Heat is released during an exothermic reaction.
This is not a replacement reaction. And the silicon chloride is SiCl4.