Investigation into Stress Capacity

Investigation into mental strain CapacityThis physics experiment was conducted to investigate focal point capacity or known as tensile strength. We had to determine the relationship in the midst of the force apply on an end and the lengthening of the rubbery real(a). The link between the force applied and the computer address of the reflect is governed by Hookes impartiality. To establish this connection, we need to measure the relationship between the force applied and the extension. We did this by adding a series of batch, which builds the force on the leaping (The Professor, 2016). Hookes Law When an live fair game is galloped, the expanded distance is called extension. The extension of the elastic object is directly proportional to the force applied to it also known as F=kx.F is baron and show in Newtons (N).k is the spring uninterrupted expressed in newtons per metre (N/m)x is the extension expressed in metres (m). (BBC Bite size, 2016)A force causes an obje ct to abide changes, forces that are ghastly change speed, shape or direction. gravitational forces are only in effect if there are two or more masses objet dart friction opposes motion (BBC Bitesize,2017). Forces that affected this experiment are gravitational Force, Applied Force, tensional Force. Gravitational Force A force of lot between all objects, it depends on the masses of the object and the distance between them. The larger object, the stronger the gravitational force. Applied Force A force when an object is being pushed or pulled by another object. Applied forces causes an object to undergo changes in acceleration, velocity and direction. The force equation is F=ma. Tensional Force It is a force that is transmitted through a string, cable, elastic spate, catch or a wire. Tensional force is directed along the length of the object when it is pulled by forces from opposite ends.The relationship between emphasize and test is known as the stress-strain curve. It is u nlike for each material and is found by recording the amount of deformation at distinct intervals of tensile or compressive loading. Strain is relative change in shape or size of an object due to externally applied forces. This means it becomes dimensionless and has no units. Stress is the internal force (per unit area) associated with strain.It is predicted that the two materials will show different conclusions. I believe that the silicon subway has higher capability of keeping larger masses. It depends on the length and thickness of the material. The soothsaying is that the silicon tube will have the highest stress capacity and wont have a long extension while the elastic band will stretch the furthest but wons have much stress capacity.EquipmentRetort substructureClamp1 Metre RulerMass Hanger silicon thermionic valveElastic Band50g and 100g MassesNotebook and PenProcedureframe-up Retort stand and clamp.To start with, place the material/object on with come on any stress.Meas ure the weight of the mass hanger.Measure the length of the material/object.Place mass on it and measure the length to figure out extensionRecord results on tableRepeat step 5, terce times for each weight to allow results to be reliable indeed find average.Keep repeating step 5,6,7 until enough data has been save for each materialMilan AbrahamElastic BandMass (kg)Forceprofessional Length1st address2nd protraction3rd ExtensionAverage0014.90.0610.60N14.9+1.1 (16)+0.9 (15.8)+1 (15.9)+1 (15.9)0.1611.58N14.9+1.5 (16.4)+1.4 (16.3)+1.5 (16.4)+1.5 (16.4)0.2612.56N14.9+1.8 (16.7)+1.7 (16.6)+1.9 (16.8)+1.8 (16.7)0.3613.54N14.9+2.1 (17)+2 (16.9)+2.2 (17.1)+2.1 (17)0.4614.52N14.9+2.4 (17.3)+2.3 (17.2)+2.6 (17.5)+2.4 (17.3)0.5615.50N14.9+2.9 (17.8)+2.9 (17.8)+2.7 (17.6)+2.8 (17.7)Milan AbrahamSilicon TubeMass (kg)ForceOriginal Length1st Extension2nd Extension3rd ExtensionAverage0072.20.0610.60N72.2+2.3 (74.5)+2.3 (74.5)+2.8 (75)+2.5 (74.7)0.1611.58N72.2+4.3 (76.5)+4.3 (76.5)+4.3 (76.5)+4.3 (76.5)0.2612.56N72.2+5.3 (77.5)+6.3 (78.5)+5.8 (78)+5.8 (78)0.3613.54N72.2+7.8 (80)+7.8 (80)+8.3 (80.5)+8 (80.2)0.4614.52N72.2+8.8 (81)+8.3 (80.5)+8.8 (81)+8.6 (80.8)0.5615.50N72.2+10.3 (82.5)+9.8 (82)+9.8 (82)+10 (82.2)0.981.40.7The Elastic band and Silicon tube was hung vertically with a mass hanger to the end of the material. Masses from 61g to 561g were added. The length of the elastic band was measured once it was at rest. In this structure, certain forces were in effect. Gravitational force directed the hanging masses downwards. The Applied Force in this case is the masses pushes the elastic material downwards with gravity supporting it. Restoring Force directs the elastic material upwards, in the opposite direction of displacement. Tension is directed through each material pulling each end. victimisation Newtons Law the spring constant was calculated for each material. F=ma was transferred into W=mg to calculate gravity. To find the spring constant for the elastic band, mas s was turned into dynes. Gravity times mass= dynes. 9836.07 times 0.561 = 5518.04 dynes. then(prenominal) it is dynes divided by extension(cm) which is 5518.07 divided by 2.8 = 1970.74 dynes/cm which is 1.97N/m. The spring constant for the silicon tube was which is 0.55N/m. The intercept for the best fit straight gunstock is close to the origin and is also consistent with Hookes Law.To minimise errors, we should have viewed the convention from specific angles to make sure it was vertical. The scale should be viewed at gist level to avoid parallax error. There were some issues with the retort stand so some equipment was not fit for the experiment and were faulty. In some instances, we undeniable to make sure that when the person was adding mass, he didnt stretch the material while he was doing it so the results could be accurate. We reduced the decimal places to two so that results could be easy to substitute while being accurate.The hypothesis was predicted to be that the elast ic band while have a longer extension than the silicon tube and the silicon tube would be stronger than the elastic band. The prediction wasnt correct as from results it says that silicon tube had a bigger extension which was a surprising result as the material was much thicker. The elastic band had the best result because it showed results that were somewhat predicted and accurate.Through this experiment investigated stress capacity, Hookes Law and certain forces which have influenced the experiment. The hypothesis wasnt as predicted.For this experiment, we determine the spring constant and Youngs Module, we had to interpret the behaviour of two different materials. The results will be analysed to determine what is happening to the materials physically and which one is more capable of the masses. The two types of materials used for this experiment were an elastic band and a tube of silicon rubber.