calculate the energy requiered to raise the temp of 1.0 mol Ag by 1.0 degrees celsius (molar heat capacity of silver)

answer in j/mol(degrees celsius)

what are the steps to this problem?
how do I find the second temp value?

To calculate the energy required to raise the temperature of 1.0 mol of Ag by 1.0 degree Celsius, you can follow these steps:

Step 1: Find the molar heat capacity of silver, which represents the amount of energy required to raise the temperature of 1 mol of silver by 1 degree Celsius. The molar heat capacity of silver is given as 25.35 J/mol°C.

Step 2: Multiply the molar heat capacity by the number of moles of silver (in this case, 1.0 mol) and the temperature change (in this case, 1.0 degree Celsius) to find the energy required. The formula is:

Energy = molar heat capacity * number of moles * temperature change

Energy = 25.35 J/mol°C * 1.0 mol * 1.0 °C

Step 3: Calculate the value:

Energy = 25.35 J/mol°C

Therefore, the energy required to raise the temperature of 1.0 mol of Ag by 1.0 degree Celsius is 25.35 J/mol°C.

To find the second temperature value, you need more information about the system, such as the initial temperature or the heat source or sink involved. Without such information, it is not possible to determine the second temperature value.

To calculate the energy required to raise the temperature of 1.0 mol of silver (Ag) by 1.0 degree Celsius, you need to follow these steps:

Step 1: Find the molar heat capacity of silver (C). The molar heat capacity is given by the symbol C and is measured in joules per mole per degree Celsius (J/mol·°C). In this case, you are given that the molar heat capacity of silver is a known value.

Step 2: Use the formula: q = nCΔT, where q represents the energy required, n is the number of moles of the substance, C is the molar heat capacity, and ΔT is the change in temperature.

Step 3: Substitute the given values into the formula. In this case, n = 1.0 mol, C is the molar heat capacity of silver (a known value), and ΔT = 1.0 °C.

Step 4: Calculate the energy required (q) by multiplying n, C, and ΔT together.

To find the second temperature value, you will need more information. In this case, you are given a temperature change of 1.0 degree Celsius, but you need to know the initial temperature to calculate the final temperature. The equation for calculating the final temperature is: Tf = Ti + ΔT, where Tf is the final temperature, Ti is the initial temperature, and ΔT is the change in temperature. You either need to be given the initial temperature or have additional information to determine it.

q = mols Ag x molar heat capacity x delta T.

q = heat required in joules/mol
mols Ag = 1.0 from the problem.
molar heat capacity you must have or must look up.
delta T = 1 degree from the problem.
The second value of the temperature doesn't matter. IF it started at 30, the new T would be 31. IF it started at 50, the new T would be 51, etc. What matters is the difference and you are given that it is 1 degree C.