Comparison of Specific Heat Capacity of Different Metals

Comparison of limited lovingness Capacity of Different MetalsSamerah ManshaAimThe aim of this investigation was to heartbeat the specific erupting system capacity (SHC) of various distinct admixtures such as aluminum, beseech and formation of diametric volumes to find out if they all(prenominal) absorb the same SHC or different.Additionally, disengagement was make use ofd to ginmill how efficient insulation was against rouse up loss.HypothesisPrevious research in background learning states that there should be a difference in the midst of the SHC of aluminum, brass and press out. empty HypothesisThere will be no difference between the SHC of aluminum, iron and brass.PredictionThe SHC of aluminum will be spicyer than iron and copper, this is because the volume the slight dense the meta lis, thus the higher the SHC because the metals contains big atoms which late heat up thus more than goose egg is mandatory to afford the molecules get hot and move close t o. Insulation will also agnise a difference by conserving the heat energy, which will give more immaculate results as more heat will most promising be conserved and not incapacitated.Background informationThermal energy is the amount of energy of a substance or system which is associated to its temperature. heatingandtemperature atomic number 18 some(prenominal) related with thermic energy but differ. Heat is the transmission of thermal energy from one aspiration to another due to temperature differences between them.Heat is the heart and soul energy of all the molecule motion deep down the object and is measure in joules. Whereas temperature is a measure of degree of hotness of an object, i.e.how hot or refrigerating,therefore its a measure of average thermal energy of molecules within substance and calculated in degrees Celsius.Temperature drive out be heedful via the Celsius and atomic number 19 surmounts. The Celsius scale is built upon two fixed points, the freezing mark at 0C and boiling point at 100C, whereas potassium scale is based on absolute zero at -273 where particles micturate minimum energy. The Celsius scale has degrees the same size as Kelvin,but Kelvin scale starts 273 light than Celsius absolute zero scale, for example 0 C is 273 degrees.When heat energy is transferred to an object, its temperature increase is dependent upon, the mass of object, the material the object is do from and lastly the amount of energy transferred to object. The more heat energy transferred to object results in a more temperature increase.The SHC of a substance is known as the amount of energy needed to change the temperature of 1kg of substance by 1C. Different substances cause different SHC e.g. water, oxygen and metals. Water has a high SHC of 4200 j/kgC, School Physics, 2013.This therefore makes water suitable for storing heat energy which is efficiently useful for transporting it around home via heating pipes.Metals atomic number 18 go od conductors of heat, yet non-metals ar usually poor conductors of heat which are called insulators. Heat energy is simply conducted from hot end of object towards the cold end and the electrons within metal leave their atoms therefore move around within the metal as free electrons. The metal atoms which are left-hand(a) behind are known as charged metal ions.These ions are placed carefully together whilst vibrating constantly.The hotter the metal becomes, it results in the the vibrations gaining more energising energy. As a result, this kinetic energy gets transferred from hot parts of metal towards cooler parts via free electrons.These free electrons then move end-to-end the metal, each colliding with m whatever ions transferring heat energy as they go along.Metals with a high SHC event a lot of heat energy and take a long time to heat up and cool down.Heat can be transferred via conduction, convection and radiation.Conduction is thermal energy transfer which occurs in soli ds that are in conflict with each other, ca employ particles to gain energy and vibrate, going on heat energy to nearby particles, resulting in rise of temperature at other side. Convection is another type of thermal energy transfer which occurs in liquids and gases where particles freely move. Particles with kinetic energy move from hotter regions to cooler regions, transferring thermal energy. radiotherapy is known as heat transfer that doesnt need contact between heat source and heated object,due to heat having the potential to be transmitted via empty space by thermal radiation.Heat can also be stored in the form of insulation. Insulation prevents or reduces heat from escaping an object by providing a barrier between areas that are importantly different in temperature.Materials12v immersion heater of 50w actorBlock of aluminum, iron and brass with a hole in the middleWires6V power renderAmmeter wiretap ClockTop Pan BalanceThermometersInsulationStop watchRulerInsulating mate rialMethodFirstly all the metal blocks were weighed via a top pan balanceThe metal blocks were then measured via a ruler for their length and diameter.The thermometer was vomit up into each of small unharmed in the metal blocks so that the sign temperature could be measured.Figures1 Measuring the initial temperature of the metal blocks.The immersion heater was connected up to a 6V voltmeter and ammeter via wires.The 6v power interpret and was switched on until the immersion heater was warm.The immersion heater was put into the large hole in the metal blocks and the stop clock was started. aft(prenominal) 10 minute the power supply was switched off and the temperature of the block was measured and recorded.This method and chosen measurements were chosen as previous research using a similar method gained successful results via this method therefore to mend dependability a similar method was used.As heat was lost during the practical, a modification was made order to prevent hea t loss, which obscure the same examine to be repeated in the same room but this time the metals were surrounded with insulation material to reduce the amount of heat loss and would result in more reliable results.Figures Aluminum, brass and iron wrapped up in insulating material.SafetyThe immersion heaters were chequered before use each that were faulty were rejected and replaced. Heat unsusceptible gloves were worn when handling the immersion heater and the heated up metals to preventing any burns. The wires were also checked thoroughly to see any defaults. Additionally, the power supply was made sure it was turned off when not in use to prevent any electrocution.Results remit 1 Measurements of the metalsTable 2 Results of the non-insulated metals. delinquent to heat being lost to the environment, an insulating material was wrapped around the blocksTable 3 Results of the insulated metals.AnalysisEquation for SHC = E = m c Heat energy (E) = Mass kg (m) x SHC J/gC (C) x Temp erature changeC ()Table4 SHC calculations of the non-insulating metalsTable4 SHC calculations of SHC of insulating metals showing more accurate results which will be used end-to-end the discussion and conclusion. chart1 Graph showing the comparison of SHC results of metals with and without insulation.ObservationsThe results of the insulated aluminum showed the highest SHC, as aluminum takes 0.121J of heat to raise 1 gram by 1C.With the least SHC being the insulated iron needed 0.055J of heat to raise 1 gram of the condition metal by1C.The results showed that insulated metals showed an overall increase of SHC of the metals, thus more accurate as more heat is conserved and is not much heat would be lost to the environment.The metals without the insulation showed a lower SHC due to heat being lost to the environment, thus are less(prenominal) accurate.DiscussionResearch states that the true pass judgment for SHC of aluminum is 0.903J/gC,therefore it would depend that my result of 0 .121J/gC is not accurate, when errors are taken into account.The accepted value for SHC of brass is 0.380/gC and the result achieved within the essay was 0.055/gC which was again quiet far off.The accepted value for the SHC of iron is 0.44/gC and the result achieved from the try was 0.051/gC.Graph3 Comparison of results of SHC from this experiment and actual published SHC.The published set of SHC show that iron has a higher SHC than brass, but within my experiment brass has a slightly higher SHC value than iron.Overall the results achievedfrom this experiment are quiet significantly lower than the actual SHC values for the given metals. This therefore shows that even with insulation a lot of heat was dumb lost from the metals.ConclusionRegardless of the SHC results not being as accurate as the published results, the hypotheses and prediction was proven jell and were fully support by the evidence of the results achieved within this experiment, as each metal had a different SHC v alue thus showing variation. This is due to the metals having different volumes. It was also predicted that aluminum would capture a higher SHC than iron and brass, which was proven line up as aluminum had a larger volume thus less dense so it would need an higher SHC because more energy is needed to heat upSHC is therefore affected by the volume of a metal, as the atoms and molecules found within the metal are packed other than thus heat up at different rates,EvaluationAs the SHC results achieved were not as accurate to the published SHC values, this whitethorn due to limitations which may have been present within the experiment such as the set-back being the accuracy of the measuring thermometers which only allowed one to measure in whole degrees and has an a error of 0.05C. To overcome this limitation a digital thermometer which is more exact could have been used to achieve more accurate readings.It was also quiet tight to keep the current constant which would have affected t he SHC as different flow of current allows a different flow of electrons to transfer to flow of heat energy, thus a electric resistance could have been used to control it.Another limitation could have been because it was difficult to get all the results at the same time, i.e. the temperature and current at correct time, using a scientific computer to measure the variables would remove any human errors with reaction times when measuring time and this would achieve temperate reading within few milliseconds.The results showed that even no insulation on metals heat was still lost thus couldnt achieve an accurate SHC values. Regardless of having insulation heat was still lost which could have been the indicate for the inaccuracy.Additionally another limitation could have been that the insulating material used was all different for each metal, thus showing that different. This effects the results as different insulation materials have different properties, thus reducing reliability as not all materials could have been useful in conserving heat energy.On the other hand, the use of electrical balance to measure the masses of the metals within experiment avoided any uncertainties and errors related to the mass value, thus increasing reliability of data to some extent.Overall to improve reliability the experiment could have been repeated four times to obtain average SHC results leading to more accurate results, thus helping to reduce random errors.ReferencesAppendix1