salt water. nacl (sodium chloride) which is a salt seperates into ions Na+ and Cl- in the aqueous form and serves as a better conductor of electricity. This is true for most all salts or anything that seperates into ions into solution. God Bless & Jesus Christ is LORD:)
No, but impure is a good conductor of electricity.
Marigolds typically grow better with regular watering using cold tap water. Sugar water can sometimes lead to issues like mold or pests due to the increased sugar content. It's best to stick with plain water for growing marigolds.
Dissolving is caused by the small rapid movements of the atoms or molecules. The faster they are moving, the better substances dissolve. As the molecules have more energy and therefore move faster in hot water, substances dissolve better there.
no
The differences are quite marginal, but drinking really cold liquids can trigger headaches, and there's some evidence suggesting that a more temperate fluid will be more quickly absorbed by the body.
Pure water no. Water conducts electricity because of the impurities in it.
It is more about mineral content than the temperature of the water. The more minerals in the water the better a conductor, the less minerals then it conducts worse. Pure water doesn't conduct electricity at all.
Cold water is better for the enviorment, because it uses "NO" electricity and power.
No, hot water is a better conductor of electricity than cold water. This is because warmer water molecules have more kinetic energy, allowing for better electron movement and increased conductivity.
Only in water coolers.
No, but impure is a good conductor of electricity.
Powdered juice dissolves faster in hot water, but tastes better in cold water.
Plastic - Foil is metallic and conducts heat easier
Cold water
Not pure water - salt water can - hot or cold.
No, cold water is piped into the hot water tank and is heated by electricity or gas, it then flows out to the hot water taps.
The electrical conductivity of a metal generally decreases with increasing temperature. Inversely, the electrical conductivity of a semi-conductor increases with increasing temperature.Source: UK GCSE (high school) science education.