to tell you the truth this is a hard question so i really cant answer it sorry who ever was looking for this answer.
To determine the temperature change in a system, one can measure the initial and final temperatures using a thermometer and then calculate the difference between the two readings. This difference indicates the temperature change in the system.
To determine the change in temperature, you can subtract the initial temperature from the final temperature. This will give you the difference in temperature, showing how much the temperature has changed.
Yes, the time required to change the solution was different for the two beakers. Beaker A took longer to change the solution compared to Beaker B.
In an isothermal process, the temperature remains constant. Therefore, the enthalpy change is directly proportional to the temperature change.
If the temperature increased to 125 degrees Celsius, the density of most substances would decrease. This is because as temperature goes up, the particles in the substance gain more kinetic energy and move farther apart, decreasing the density.
To determine the temperature change in a system, one can measure the initial and final temperatures using a thermometer and then calculate the difference between the two readings. This difference indicates the temperature change in the system.
how the temperature difference would change if st. louis were next to an ocean
the difference between -2 and 8 Celsius is 10 degrees Celsius
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To find the temperature gradient between two thermometers, subtract the temperature reading of the first thermometer from the temperature reading of the second thermometer. This difference represents the temperature change over the distance between the two thermometers, indicating the temperature gradient.
Heat transfer involves the movement of thermal energy from a region of higher temperature to a region of lower temperature. This transfer of heat between objects or substances can result in a change in temperature. The direction and rate of heat transfer is influenced by the temperature difference between the two objects.
The difference between heat and temperature is that heat is the amount of energy given off by a piece of matter, and Specific Heat indicates the amount of heat necessary to change 1g of something by 1 degree. Temperature measures change in heat.
The rate that tea cools will change with the temperature difference between the tea and the ambient temperature. The larger the difference between the two, the faster the rate will be. As the tea cools closer to room temp, the rate of cooling will decrease.
To determine the change in temperature, you can subtract the initial temperature from the final temperature. This will give you the difference in temperature, showing how much the temperature has changed.
This is either because of your variety of orange , or there is not a big enough difference in the temperature between day and night. It is this difference that promotes colour change.
Yes, the time required to change the solution was different for the two beakers. Beaker A took longer to change the solution compared to Beaker B.
The difference is that a change forms.