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.
Yes, a stick of dynamite has potential energy due to the chemical energy stored within it. When the dynamite is ignited, this energy is released in the form of an explosive reaction, converting potential energy into kinetic energy.
A lit dynamite stick converts chemical energy stored within it into thermal and mechanical energy. When ignited, the chemical bonds in the dynamite break down rapidly, releasing energy in the form of heat and pressure, resulting in an explosive reaction.
A stick of dynamite stores chemical potential energy, which is released in the form of heat and pressure when the dynamite explodes.
No, a stick of dynamite is potential energy because it has the potential to explode and release kinetic energy.
A stick of unlit dynamite contains chemical potential energy, which is released when the dynamite is ignited and undergoes a rapid chemical reaction.
Yes, a stick of dynamite has potential energy due to the chemical energy stored within it. When the dynamite is ignited, this energy is released in the form of an explosive reaction, converting potential energy into kinetic energy.
A lit dynamite stick converts chemical energy stored within it into thermal and mechanical energy. When ignited, the chemical bonds in the dynamite break down rapidly, releasing energy in the form of heat and pressure, resulting in an explosive reaction.
False. A stick of unlit dynamite contains potential energy, not kinetic energy. Kinetic energy is the energy of motion, while potential energy is the stored energy an object possesses due to its position or state.
A stick of dynamite stores chemical potential energy, which is released in the form of heat and pressure when the dynamite explodes.
No, a stick of dynamite is potential energy because it has the potential to explode and release kinetic energy.
On average, a stick of dynamite contains about 1 billion joules of energy. This energy is released in an explosive reaction when the dynamite is detonated.
A stick of unlit dynamite contains chemical potential energy, which is released when the dynamite is ignited and undergoes a rapid chemical reaction.
One stick of dynamite contains approximately 1,000 kilojoules of energy.
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.
The energy conversion that occurs when a stick of dynamite explodes is chemical energy being converted into thermal, mechanical, and sound energy. The explosive material in the dynamite undergoes a rapid chemical reaction, releasing large amounts of heat, pressure, and sound waves in the process.
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.
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.