yes for it requires more specific heat to raise 1g of water than 1g of sulfuric acid
Yes, the viscosity of water does vary with temperature. As the temperature of water increases, its viscosity decreases, making it less resistant to flow. Conversely, as the temperature decreases, the viscosity of water increases, making it more resistant to flow.
Yes, the dissolution of sulfuric acid in water is a chemical change because it involves the breaking of ionic bonds in the sulfuric acid molecules as they interact with water molecules to form new chemical species through ionization.
When sulfuric acid is mixed with water, it will undergo an exothermic reaction that generates heat. It is important to add the acid to water slowly and carefully while stirring to prevent splashing and the release of potentially harmful fumes. This dilution process produces a solution of sulfuric acid in water.
To change liquid water into a solid, you need to lower the temperature below 0 degrees Celsius to freeze it. To change liquid water into a gas, you need to raise the temperature above 100 degrees Celsius to evaporate it.
When hot metal is added into the water then the metal looses its energy into the water and this heat is gained by the water, so the temperature gets increases when hot metal added into it i.e final temperature is greater than initial temperature of water.
It does change, it is just not as noticeable as with sulfuric acid. If a thermometer is placed in HCl and water added, a change will be noticed.
Yes, the viscosity of water does vary with temperature. As the temperature of water increases, its viscosity decreases, making it less resistant to flow. Conversely, as the temperature decreases, the viscosity of water increases, making it more resistant to flow.
Yes, the dissolution of sulfuric acid in water is a chemical change because it involves the breaking of ionic bonds in the sulfuric acid molecules as they interact with water molecules to form new chemical species through ionization.
The teamperature does not change
When sulfuric acid is mixed with water, it will undergo an exothermic reaction that generates heat. It is important to add the acid to water slowly and carefully while stirring to prevent splashing and the release of potentially harmful fumes. This dilution process produces a solution of sulfuric acid in water.
Yes, water has a high specific heat capacity, which means it can absorb and store a large amount of heat energy before its temperature changes significantly. This property helps regulate Earth's climate and allows water to maintain relatively stable temperatures.
Not significantly, but it will change the temperature that water boils at.
Boiling water in a glass carafe is not recommended because the sudden temperature change can cause the glass to crack or shatter. It's safer to use a kettle or heat-resistant container made specifically for boiling water.
Yes, winds can change the tempertaure of water.
it does not change
Water temperature can change due to factors such as sunlight, air temperature, and water depth. In colder climates, water temperature can decrease due to colder air temperatures or melting ice. In warmer climates, water temperature can increase due to sunlight exposure and warmer air temperatures. Human activities such as industrial discharge or climate change can also impact water temperature.
To change liquid water into a solid, you need to lower the temperature below 0 degrees Celsius to freeze it. To change liquid water into a gas, you need to raise the temperature above 100 degrees Celsius to evaporate it.