Just like any hydrocarbon, Carbon dioxide gas and water vapor will be produced, by burning polythene.
The substances produced by a chemical reaction are known as Products. The substances that are reacted are the Reactants.
The burning sensation in muscles during exercise is often caused by a build-up of lactic acid. Lactic acid is produced when the body breaks down glucose for energy in the absence of sufficient oxygen. This process can lead to muscle fatigue and discomfort.
The burning sensation in muscles during intense exercise is a result of lactic acid accumulation. When the body can't provide enough oxygen to the muscles (anaerobic exercise), lactic acid is produced as a byproduct, causing the burning sensation. This is known as the "burn" or muscle fatigue.
Burning fossil fuels can help photosynthesis by providing the necessary CO2, a key ingredient for the process. However, burning fossil fuels also releases pollutants like sulfur dioxide and nitrogen oxides that can harm plant health and hinder photosynthesis. Additionally, the greenhouse gases produced from burning fossil fuels can contribute to climate change, impacting the environment where photosynthesis occurs.
tiny droplets of water will appear inside the bag.these tiny droplets are due to transpiration from leaves.
what is polythen pollutionpolythene pollution means polluting environment by burning or disposal of polythene material
Yes, polythene is a man-made material. It is a type of plastic that is produced from ethylene, a chemical derived from petroleum.
Polythene sheeting is used in order to protect windows from the elements. They are used in areas with harsh weather so that their windows are protected from harm.
Green house gases (Vapour Fossils Fuels ect.)
When polyethylene (polythene) is burned, carbon dioxide (CO2) gas is formed. Burning polyethylene releases harmful gases and should be avoided to protect the environment.
The color of the flame produced by burning magnesium is a bright white.
The flame produced by burning butane is typically blue in color.
The most important reactions in stellar nucleosynthesis:Hydrogen fusing: Deuterium burningThe proton-proton chainThe carbon-nitrogen-oxygen cycleHelium burning: The triple-alpha processThe alpha processBurning of heavier elements: Lithium burning: a process found most commonly in brown dwarfsCarbon-burning processNeon-burning processOxygen-burning processSilicon-burning processProduction of elements heavier than iron: Neutron capture: The R-processThe S-processProton capture: The Rp-processPhoto-disintegration: The P-processElements heavier than Iron and Nickle are only produced in supernova explosions.
When polythene (polyethylene) is burned, it primarily emits carbon dioxide (CO2) and water vapor (H2O) as byproducts of combustion. However, the burning process can also release harmful gases, such as carbon monoxide (CO), volatile organic compounds (VOCs), and other toxic substances like dioxins, depending on the conditions of the combustion. This makes burning polythene a significant environmental and health hazard. Proper disposal methods, such as recycling, are recommended to avoid these emissions.
chemical elements present in the wood. The colors seen are produced by specific elements releasing energy as they burn, creating a spectrum of colors. Each element emits a unique color when burning, resulting in the diverse range of colors observed in a burning log.
The gas produced by the burning of fuel is carbon dioxide.
When polythene (polyethylene) burns, it typically produces carbon dioxide, water vapor, and various other combustion byproducts, including toxic compounds such as carbon monoxide and potentially dioxins, depending on the conditions of combustion. The burning process can release smoke and harmful chemicals into the atmosphere. Additionally, the heat generated can pose a fire hazard and cause damage to surrounding materials. Due to these factors, burning polythene is discouraged in favor of more environmentally friendly disposal methods.