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No, the mass of calcium oxide does not affect the temperature rise when it reacts with water. The temperature rise is determined by the amount of energy released during the exothermic reaction between calcium oxide and water, which is constant regardless of the mass of calcium oxide used.
4 degrees is the new temperature -10 + 14 = 4
To calculate the mercury rise in a thermometer, you need to subtract the initial temperature reading from the final temperature reading. The difference between these two readings represents the mercury rise in the thermometer. Make sure to use the units of measurement (usually degrees Celsius or Fahrenheit) in your calculation.
The temperature of the continental rise is the temp of your dick
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The rise of temperature denatures the bond between oxygen and hemoglobin.
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Rise in investment in a country eventually leads to the rise in economy.
The relationship between the rise of ocean temperatures and the rise in the level of atmospheric carbon dioxide is that when there is a rise in atmospheric carbon dioxide the warmer the temperature of the ocean is
There is a link between the mass of water heated and how much that water rises in temperature. It's called the "heat capacity" of water. It takes 1 joule of energy to raise the temperature of 1 gram of water by 1 degree celcius (or kelvin). So knowing this you can work out how much hotter a specific amount of water would become if you applied a known amount of energy to it.
Yes, the volume of water can affect the temperature rise in the reaction between calcium oxide and water. A larger volume of water can absorb more heat energy released during the reaction, resulting in a lower temperature rise compared to a smaller volume of water. Additionally, the concentration of the resulting calcium hydroxide solution can also influence the temperature change.
rise
The temperature rise because of the gangnam dance
No, the mass of calcium oxide does not affect the temperature rise when it reacts with water. The temperature rise is determined by the amount of energy released during the exothermic reaction between calcium oxide and water, which is constant regardless of the mass of calcium oxide used.
Fever is different from a simple rise in body temperature because a fever always results in a rise in body temperature but such a rise is not always because of a fever. A rise in body temperature could occur because of exercise or warm weather and not just because of a fever.
A rise of 7°