it turns to bacon :)
If bromine water is shaken with an unsaturated fat, the initially orange bromine water will change color to colorless. This is because unsaturated fats can undergo addition reactions with bromine, breaking the double bonds and forming bromoalkanes.
When water is poured on the ground, air trapped in the soil may be released. As the water flows through the ground, it displaces air pockets, causing bubbles to rise to the surface. This effect is commonly seen in saturated or compacted soil.
What has occured is a process called diffusion, which is the spreading of particles from a higher concentration to a lower concentration. The particles in any gas move quicly and in all directions and fill their container because there are no bonds between them. The jar with the bromine gas has a higher concentration of the gas particles, they move through the air particles to the jar with the lower concentration of bromine gas until they are dispersed evenly throughout the jar, hence the gas can be seen filling both jars. The same would happen with a clear gas but bromine is used for demonstration purposes as it has a colour and so the process can be seen clearly.
The element bromine is a red-brown liquid at room temperature. When it is cooled to below -7.2 °C, or 19 °F, it changes phase to a solid. If seen in that solid state, it has a metallic luster to it. Wikipedia has more information, and a link is provided below.It is a Dark Red liquid
Dry quicksand is not found naturally in New Mexico. Quicksand is typically formed when saturated sand becomes liquified due to the upward flow of water. Dry quicksand, on the other hand, is a fictional concept often seen in movies and not something that occurs naturally in the state of New Mexico.
If bromine water is shaken with an unsaturated fat, the initially orange bromine water will change color to colorless. This is because unsaturated fats can undergo addition reactions with bromine, breaking the double bonds and forming bromoalkanes.
can saturated or dry steam be seen
Briefly shaken by the racial riots in Singapore's history during the 1960s, it emerged stronger after independence and is seen as a cornerstone of Singapore's culture today.
Bromine is an element, a very very reactive element. At standard temperature and pressure it is a brown colored liquid, as seen in the center vial in the image above. However bromine is so reactive that you will never see it in its elemental form in daily life, it is most commonly is found in compounds called bromide salts.
The yellow color seen when sodium bromide reacts with chlorine is due to the formation of bromine, a reddish-brown liquid, which is a byproduct of the reaction. Bromine is responsible for the yellow color of the solution.
When water is poured on the ground, air trapped in the soil may be released. As the water flows through the ground, it displaces air pockets, causing bubbles to rise to the surface. This effect is commonly seen in saturated or compacted soil.
The primary difference is that an unsaturated hydrocarbon contains a C=C double bond allowing it to undergo addition reactions. Saturated hydrocarbons contain only C-C single bonds so only substitution and elimination can occur. The difference can be seen experimentally as an unsaturated hydrocarbon (eg ethene) will decolourise bromine water.
What has occured is a process called diffusion, which is the spreading of particles from a higher concentration to a lower concentration. The particles in any gas move quicly and in all directions and fill their container because there are no bonds between them. The jar with the bromine gas has a higher concentration of the gas particles, they move through the air particles to the jar with the lower concentration of bromine gas until they are dispersed evenly throughout the jar, hence the gas can be seen filling both jars. The same would happen with a clear gas but bromine is used for demonstration purposes as it has a colour and so the process can be seen clearly.
The element bromine is a red-brown liquid at room temperature. When it is cooled to below -7.2 °C, or 19 °F, it changes phase to a solid. If seen in that solid state, it has a metallic luster to it. Wikipedia has more information, and a link is provided below.It is a Dark Red liquid
You can see some halogen gases, such as Chlorine and Bromine and Iodine because they are coloured. Most other gases are colourless and cannot be seen.
oobleck, blood, Jell-O *editor: not quite. those are colloids. suspensions have sperated particles when standing. (They mix when stirred or shaken.) Some supsension examples: dirt in water, clay in water, and sand in water Also, there is chalk dust and water, flour and water.
some plant drink water and can be seen