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Which component (the aluminum or water experienced a greater change in temperature?
To determine which component experienced a greater change in temperature, you would need to compare the initial and final temperatures of both the aluminum and the water. Generally, aluminum has a lower specific heat capacity than water, meaning it can experience a greater temperature change with the same amount of heat transfer. Therefore, if both components were subjected to the same heat transfer, the aluminum would typically exhibit a greater change in temperature than the water.
A 48.26g sample of aluminum at 100.0C is dropped into 34.47g of water at 25.0C What is the final temperature?
To find the final temperature, you can use the principle of conservation of energy, Q lost = Q gained. The heat lost by the aluminum will be equal to the heat gained by the water. Use this formula: (mass of aluminum) x (specific heat capacity of aluminum) x (change in temperature) = (mass of water) x (specific heat capacity of water) x (change in temperature). You can then solve for the final temperature.
If the specific heat of aluminum is 899 Jkg and degC and the specific heat of water is 4190 Jkg and degC which of the following statements is true?
The specific heat of water (4190 J/kg·°C) is significantly higher than that of aluminum (899 J/kg·°C). This means that water can absorb more heat energy per kilogram for each degree Celsius of temperature change compared to aluminum. As a result, water heats up and cools down more slowly than aluminum, making it more effective for temperature regulation in various applications.
How does the temperature of water change as how does the temperature of water change as the bulls it boils?
The teamperature does not change
How does specific latent heat of water vary with temperature?
Latent heat of water is the heat required to change its state at a particular temperature BECAUSE of the pressure at which the water is at at the point of fusion or evaporation.The latent heat is not affected by temperature (in fact there is no temperature change during absorption of latent heat) it is affected by the pressure acting on a substance. As the pressure increases, the latent heat (of evaporation) decreases, consequently with the change in pressure there is also a different temperature at which the evaporation takes effect, higher pressure, higher temperature at the evaporation point.
Which component (the aluminum or water experienced a greater change in temperature?
To determine which component experienced a greater change in temperature, you would need to compare the initial and final temperatures of both the aluminum and the water. Generally, aluminum has a lower specific heat capacity than water, meaning it can experience a greater temperature change with the same amount of heat transfer. Therefore, if both components were subjected to the same heat transfer, the aluminum would typically exhibit a greater change in temperature than the water.
A 48.26g sample of aluminum at 100.0C is dropped into 34.47g of water at 25.0C What is the final temperature?
To find the final temperature, you can use the principle of conservation of energy, Q lost = Q gained. The heat lost by the aluminum will be equal to the heat gained by the water. Use this formula: (mass of aluminum) x (specific heat capacity of aluminum) x (change in temperature) = (mass of water) x (specific heat capacity of water) x (change in temperature). You can then solve for the final temperature.
Which would take more energy to increase temperature by 5 degrees water or Aluminum?
It would take more energy to increase the temperature of water by 5 degrees than aluminum. This is because water has a higher specific heat capacity, meaning it requires more energy to raise its temperature compared to aluminum.
Does the temperature of water change more slowly than the temperature of land?
Yes, water has a higher thermal capacity.
If the specific heat of aluminum is 899 Jkg and degC and the specific heat of water is 4190 Jkg and degC which of the following statements is true?
The specific heat of water (4190 J/kg·°C) is significantly higher than that of aluminum (899 J/kg·°C). This means that water can absorb more heat energy per kilogram for each degree Celsius of temperature change compared to aluminum. As a result, water heats up and cools down more slowly than aluminum, making it more effective for temperature regulation in various applications.
What occurs when a 35-gram aluminum cube at 100C is placed in 90 grams of water at 25C in an insulated cup?
The aluminum cube will lose heat as it cools down to the final temperature of the system. This heat will be transferred to the water causing it to increase in temperature. The final equilibrium temperature will be somewhere between the initial temperatures of the aluminum and water.
How does the temperature of water change as how does the temperature of water change as the bulls it boils?
The teamperature does not change
What is the solubility of aluminum chloride in water?
The solubility of aluminum chloride in water is approximately 44 grams per 100 milliliters of water at room temperature.
How does specific latent heat of water vary with temperature?
Latent heat of water is the heat required to change its state at a particular temperature BECAUSE of the pressure at which the water is at at the point of fusion or evaporation.The latent heat is not affected by temperature (in fact there is no temperature change during absorption of latent heat) it is affected by the pressure acting on a substance. As the pressure increases, the latent heat (of evaporation) decreases, consequently with the change in pressure there is also a different temperature at which the evaporation takes effect, higher pressure, higher temperature at the evaporation point.
What happen to the temperature boiling water as it's boil?
When water is boiling, the temperature remains constant, as the energy it is absorbing is being used to change the liquid water into water vapor.
How would the boiling temperature of water change if you were in the Puerto Rico trench at it's deepest?
Because the pressure of the water in the Puerto Rico trench is much higher than at the surface of the Caribbean Sean, the temperature at which water boils would be significantly higher than at the surface.
Does temperature change when changing the longitude?
Temperature does not typically change solely based on longitude. Temperature is primarily influenced by factors such as altitude, latitude, proximity to bodies of water or mountains, and prevailing wind patterns. While longitude can indirectly affect temperature through these factors, it is not a direct cause of temperature change.
