Yes it does cuz when u lite it up the heat goes to the powder and ...KABOOM !!
(Its called Thermal energy)
An explosion of a firework requires heat to ignite the chemicals within the firework. Once ignited, the explosion of the firework releases light, sound, and heat energy as the chemicals burn and react.
A firework has chemical potential energy stored in its explosive compounds. When ignited, this energy is rapidly released as heat, light, and sound, causing the firework to explode and create its visual display.
The energy source that starts a firework is most commonly a fuse, which is a cord that contains a combustible material. When the fuse is ignited, it burns slowly until it reaches the explosive components of the firework, causing it to ignite and produce colorful effects.
The energy in a firework comes from the combustion of the explosive chemicals inside it. When ignited, these chemicals react exothermically, releasing energy in the form of heat and light, which creates the dazzling visual display we see in the sky.
The energy in sparks of a firework comes from the rapid combustion of chemicals within the firework mixture. This chemical reaction produces heat and light energy, creating the dazzling display of colors and shapes that we see in fireworks.
An explosion of a firework requires heat to ignite the chemicals within the firework. Once ignited, the explosion of the firework releases light, sound, and heat energy as the chemicals burn and react.
To draw an energy transfer diagram for a firework, you can start with the chemical energy stored in the firework chemicals. When the firework is ignited, this chemical energy is converted into thermal (heat) energy, light energy, sound energy, and kinetic energy as the firework launches and explodes. Each arrow in the diagram represents the flow of energy from one form to another.
Energy in firework is present in form chemical energy which will be converted into light and sound .and small part of energy is converted heat .then the remaining energy is converted into kinetic energy after explosion.
A firework has chemical potential energy stored in its explosive compounds. When ignited, this energy is rapidly released as heat, light, and sound, causing the firework to explode and create its visual display.
The word "whoomph" is an onomatopoeia that might be used to describe the sound of the heat from a firework. It conveys the sudden burst of heat and energy that is often associated with fireworks.
The energy source that starts a firework is most commonly a fuse, which is a cord that contains a combustible material. When the fuse is ignited, it burns slowly until it reaches the explosive components of the firework, causing it to ignite and produce colorful effects.
Fireworks use chemical energy, as the combustion of various chemicals inside the firework creates heat, light, and sound energy. This chemical energy is released in the form of a dazzling display of colors and patterns when the firework is ignited.
The energy in a firework comes from the combustion of the explosive chemicals inside it. When ignited, these chemicals react exothermically, releasing energy in the form of heat and light, which creates the dazzling visual display we see in the sky.
Less. Firework spark is generated by fuse friction, ice by freezing water and the water expands.
The energy in sparks of a firework comes from the rapid combustion of chemicals within the firework mixture. This chemical reaction produces heat and light energy, creating the dazzling display of colors and shapes that we see in fireworks.
A firework transforms chemical energy stored in its propellant and explosive materials into thermal energy, light energy, and sound energy upon ignition. When ignited, the chemical reactions produce heat and gases that expand rapidly, creating a loud sound and propelling the firework into the sky. As it explodes, the thermal energy produces visible light in various colors, showcasing the fireworks' beauty.
When lighting a firework with a wax taper, the physical change in the wax taper is the melting of the wax due to the heat from the flame. The solid wax turns into a liquid form as it absorbs heat energy, making it easier to transfer the flame to the firework.