Enthalpy change and Hess’s law. Essay

Introduction Enthalpy is the append energy of a system, some of which is restored as chemic potential energy in the chemical bonds. During receptions, bonds are broken and take a shited. As a result, all reactions are attach to by a multifariousness in the potential energy of the bonds, and whence an total heat tilt. This hydrogen change of reaction can be deliberate and is entertainn the symbol H. The temperature of a system is a musical rhythm of the bonnie kinetic energy of the particles present. Therefore, during a reaction, as bonds are broken and bounceed, in that location is a change in this average kinetic energy and this provide result in a change in the temperature of the system. On the separate hand, heat is the measure of the total energy of the substance. When the temperature of a substance increases or decreases, heat energy is absorbed or released from the environment. In order to measure this change in temperature, the following formula can be emplo y- pepperiness energy = m.C.T where, m= mass of the substanceC= particularised heat capacityT= change in temperatureAim of taste This particular experiment focuses on Hesss law. Hesss law states that the total enthalpy change on converting a given set of reactants to a particular set of products is constant, irrespective of the way in which the change is carried out. For this experiment, the modulation of NaOH to NaCl by two different send offs was use and the change in enthalpy for each path was heedful to test Hesss law.Route champion NaOH + 2M HCl 2M NaCl2M NaCl + H2O 1M NaClRoute two NaOH + H2O 2M NaCl2M NaOH + 2M HCl 1M NaClMaterials beakers, NaOH, 2M HCl, stopwatch, thermometer, pipettes, measuring cylinderMethods for the outset route, 4g of NaOH was weighed. consequently development a measuring cylinder 50 ml of 2M of HCl was measured and poured into a can. A thermometer was used to record the temperature of the hydrochloric acid in the can. Afterwards NaOH was added into the can. Using stopwatch and a thermometer the change in temperature was measured as 2M of NaCl was being formed. Once the temperature of the 2M NaCl was stable, 50 ml of water was added to change the sodium chloride into 1M of NaCl. Using stopwatch and thermometer the change in temperature was recorded.For the second route, 4g of NaOH was weighed. Then to form 2M of NaOH, 50 ml of water was added. A thermometer and stopwatch was used to monitor the change in temperature. Then 50ml of HCl was measured. Then its temperature was measured. These two solutions were and then mixed together in a can. The temperature change was measured using a thermometer and stopwatch.Results for route unrivaled.In table1.1, the temperatures of NaOH and 2M HCl before the reaction began were 22.50.1c. In table1.2, the temperature of 2M NaCl was 57.50.1c before 50ml of water was added to it.Graph 1.2 temperature changes when 50 ml of water was added to 2M of NaCl to form 1M ofNaCl.Results for route two.After 50ml of water was added to 4g of NaOH to form 2M of NaOH, it had a temperature of 32.40.1c. On the early(a) hand, 2M of HCl had a temperature of 22.50.1 c. For table 1.3 the beginning temperature of these two reactants is the mean entertain of their temperature that is 27.40.1c. This was through because there was not enough time to wait until two reactants reach the same temperature.Table 1.4 temperature changes during the addition of50ml of water to 4 g of NaOH to form 2Mof NaOH.Table 1.3 temperature changes during the reaction of 2M of NaOHwith 2M of HCl to form 1M of NaCl.Graph 1.3 temperature changes during the reaction of 2M of NaOH with 2M of HCl to form 1M of NaCl.Graph 1.4 temperature changes during the addition of 50ml of water to 4 g of NaOH to form 2M of NaOH. banterTo test Hesss law the temperature change in each of the routes during the reaction can be used. The formula for heat change, which is found in the mental hospital section of this report, is also useful. For this particular experiment, water that is the byproduct in the ecesis of sodium chloride is used as a way of finding the enthalpy change. The density of water is taken to be 1g/ml and is used to delimit the mass of the solutions. The specific heat capacity of water is 4.18 (g-1k-1).Route one To form 2M of NaCl the change in temperature () was 71.6 22.5= 49.1c. The mass of the solution of NaOH and 2M of HCl was found to be 50g by using the density of water as 1g/ml and the hoi polloi of the solution being 50ml. change in enthalpy is- cacoethes change= m. c.== 10.2 KJThe change in enthalpy in changing 2M of NaCl to 1M of NaCl can be calculated in the same way where the mass of the solution becomes ampere-second g when 50 ml of water is added. The change in temperature was -17.6 c.Heat change= m. c.== -7.3 KJThe sum of the two changes in enthalpy will give a value of 2.9 KJ.Route two the change in temperature in forming 2M of NaOH from NaOH was 9.9c. To do this 50 ml of water was added and the mass of the solution was 50 g. using the formula the change in enthalpy can be calculated as follows-Heat change= m. c.== 2.0 KJOnce 2M of NaOH was formed, 50ml of 2M of HCl was added to form 1M of NaCl, which is the last product. The change in temperature was 8.5c. The mass was 100g and the change in enthalpy wasHeat change= m. c.== 3.5 KJThe sum of the two changes of enthalpy is 5.5 KJ.Conclusion The change in enthalpy for the formation of 1M of NaCl using route one was 2.9 KJ. Using route two it was 5.5 KJ. There is a significant difference of 2.6 KJ. This shows that the experiment done did not prove the Hesss law imprintively. This may be repayable to certain factors that will be discussed below.Limitation There could be tolerate of heat to the surrounding environment that can have vital effect on the results of the experiment. Human error and mistake matter in this broad of experiment. Instead of using a simple thermometer appropriate ca n be used.Improvements- the use of data pro logger or calorimeter can asperse the human and device error in measuring temperature and can be better than simple thermometer. Using insulator such as Styrofoam cups to proscribe heat from escaping to the surrounding.