The explosion of dynamite involves a rapid release of chemical energy stored in the dynamite molecules. This chemical energy is converted into thermal and kinetic energy during the explosion. The thermal energy causes the surroundings to heat up, while the kinetic energy produces the force that results in the explosion.
The dynamite contains chemical energy stored in its molecular bonds. When the dynamite is ignited, a rapid chemical reaction occurs, releasing large amounts of heat and gas. This sudden increase in pressure and volume creates a powerful shockwave that produces mechanical energy, resulting in the explosion.
No, a stick of dynamite contains potential energy in the form of chemical energy. When ignited, the chemical energy is converted into kinetic energy as the explosive expands rapidly, producing an explosive force.
When dynamite explodes, the chemical potential energy stored within the dynamite is rapidly converted into thermal (heat) and mechanical energy. This results in the release of a large amount of heat and pressure, causing the explosive reaction that produces an explosion.
10 kilograms of dynamite has more energy because it contains twice the amount of explosive material compared to 5 kilograms. The energy released during an explosion is directly proportional to the amount of explosive material present.
The energy stored in a dynamite stick is chemical potential energy. This energy is released in the form of heat and pressure when the dynamite is detonated.
Mechanical energy (Blast waves) and thermal energy (Heat)
The dynamite contains chemical energy stored in its molecular bonds. When the dynamite is ignited, a rapid chemical reaction occurs, releasing large amounts of heat and gas. This sudden increase in pressure and volume creates a powerful shockwave that produces mechanical energy, resulting in the explosion.
The energy released when dynamite explodes comes from the chemical reaction within the dynamite itself. The explosive compound in dynamite, such as nitroglycerin, rapidly decomposes and releases a large amount of heat, pressure, and gas, resulting in the explosion.
No, a stick of dynamite contains potential energy in the form of chemical energy. When ignited, the chemical energy is converted into kinetic energy as the explosive expands rapidly, producing an explosive force.
thermal enery cause it produces heat *and light and sound
Chemical potential energy is a form of potential energy found in both food and dynamite. This energy is released when chemical bonds are broken during a chemical reaction, such as digestion in food or explosion in dynamite.
When dynamite explodes, the chemical potential energy stored within the dynamite is rapidly converted into thermal (heat) and mechanical energy. This results in the release of a large amount of heat and pressure, causing the explosive reaction that produces an explosion.
The explosion was heart for many miles. Dynamite can cause an explosion.
The explosion occurred when he accidentally set off the dynamite.
The explosion of dynamite in the destruction of a building is an exothermic reaction because it releases heat energy to the surroundings. The chemical bonds in the dynamite break, leading to the formation of new molecules and the release of energy in the form of heat and light.
Explosion is a chemical phenomenon.
A dynamite explosion is a form of rapid combustion that converts the chemical potential energy stored in the dynamite's molecular structure into heat, light, and kinetic energy. The chemical reaction releases a large amount of energy rapidly, causing the explosion.