Clorine gas is having bleaching properties.
You think probable to chlorine.
No, magnesium is not a property of noble gases. Magnesium is a chemical element classified as an alkaline earth metal, while noble gases are a group of elements known for their stable and unreactive nature.
the noble gases have their valence shell complete
they conform to the shape of whatever they are put into.
noble gases are also called inert gases due to their lack of reactivity
You think probable to chlorine.
Bleaching your hair is a chemical process, not a physical property. The chemicals in hair bleach work to break down the natural pigments in your hair, resulting in a lighter color. This change is due to a chemical reaction rather than a physical characteristic of the hair itself.
On standing in the open air bleaching powder react with carbon dioxide produce chlorine gas. As a result the activity or bleaching property of bleaching powder is reduced. So it is kept in a closed container.
The ability to flow and take the shape of their container is a property of liquids and gases that solids do not have. This property is known as fluidity.
No, magnesium is not a property of noble gases. Magnesium is a chemical element classified as an alkaline earth metal, while noble gases are a group of elements known for their stable and unreactive nature.
The bleaching process involves the chemical reaction of breaking down pigments or stains present in a material through oxidation or reduction reactions. This can be observed through changes in color or the release of gases during the bleaching process. Additionally, the use of bleaching agents, such as hydrogen peroxide or chlorine, provides further evidence that a chemical reaction is occurring to achieve the bleaching effect.
they can flow
the noble gases have their valence shell complete
they conform to the shape of whatever they are put into.
Gases are compressible.
Yes, gases show the property of diffusion. Diffusion is the movement of gas molecules from an area of high concentration to an area of low concentration, and this process occurs naturally in gases due to their high kinetic energy and constant motion.
A pneumatic system is based on the property of gases to compress and expand easily when pressure is applied or released. This property allows pneumatic systems to use air or other gases to transmit force and energy to operate various mechanisms and components.