Wednesday, December 4, 2019
What affects the bounce of a squash ball Essay Example
What affects the bounce of a squash ball Essay I hypothesize that the hotter the squash ball the more it will bounce.A squash ball is made up of a rubber sphere containing air. The air molecules in the ball will increase in speed as you heat it. Heat energy is then converted to kinetic energy. The speed the molecules hit the side with increase, which means the momentum of the molecules is increased. Newtons 2nd Law stated that the force is proportional to the rate of change of momentum.Greater rate of change of momentum means greater force. So it bounces more.But Force = PressureAreaAnd the surface area of the ball will remain constant. So the pressure inside the ball increases and if the pressure inside the ball is higher it will bounce higher.WILL BE KEPT CONSTANT* Mass Of ballMass of ball is made of a particular type of mass as given by the world governing bodies* Input ForceThis will be constant as simply dropping the ball will mean no force is being used.* Surface Bounced onDifficult to measure so lab floor will be used cons tantly.* HeightDropped from 1 metre* MaterialMaterial of ball is made of a particular type of mass as given by the world governing bodiesMethodHeat ball up then place it in a beaker of boiling water. Then measure the temperature and drop the ball in at 1m. Measure temperature of water to find out the temperature of squash ball.To get the ball at an accurate temperature the entire ball must be submerged. The ball will be taken out of the water as quickly as possible so heat loss would be about 20 seconds each time.Rubber isnt a good heat conductor so the ball will be kept submerged for a period of 2 minutes.The ball will be held at the 1 metre mark and then dropped. The height bounced will be recorded. Results will be recorded for each bounce. I will take 9 temperature readings and do each test 3 times and then average them.EquipmentSquash ballBunsen BurnerThermometerWater1 Metre rulerStopwatchTongsBeakerGauzeTripodStopwatchSafetyGoggles must be worn because of mercury in the thermom eter and the bunsen burner.Tongs will be used to handle squash balls because of high temperatures.Preliminary ReadingsBounced from 1 metreTemperatureBounce HeightAverageReading 1Reading 2Reading 320242832384045511113211521212627121418142122242810151772023273011.014.018.712.020.722.025.728.3ObservationFrom looking at my preliminary readings I have decided to do the experiment at 10 degree intervals.ProcedureI heated up the ball by placing it in a beaker of boiling water. I measured the temperature each time. I measured temperature of water to determine the temperature of squash ball.To get the ball at an accurate temperature I submerged the entire ball. The ball was taken out of the water as quickly as possible. I assumed heat loss each time was approximately 30 seconds.Rubber isnt a good heat conductor so the ball was kept submerged for a period of 2 minutes.The ball was held at the 1-metre mark and then dropped. This was because from the preliminary readings I found that I couldnt get adequate readings by dropping the ball from 1 metre. The height bounced was recorded by the naked eye. Although the ruler was accurate to 1mm I wasnt confident enough to read it to 1mm so I read it to 1 cm.Results were recorded for each bounce. I took 8 temperature readings so that I could get a better average and a better graph. I did each test 3 times and then averaged them.ResultsTempoC1st2nd3rdAverage2014181515.73025263027.04033333734.35042404542.36058605959.07066626965.78084858183.090.593909693.310010299104101.7AnalysisThe graph climbs up when the higher the temperature but it doesnt bounce as much, at higher temperatures. Below 0 degrees it doesnt bounce that much.The graph shows that the higher the temperature the higher it bounces which proves Newtons 2nd Law that the force is proportional to the rate of change of momentum. As the change of momentum inside the squash ball is caused by the heat.ConclusionI have found from my results that as the temperature of the ball get s hotter the height of the bounce gets higher. This proves Newtons second law of motion, which states that as the ball gets hotter the atoms get more energy and vibrate more.When the ball hits the surface then the atoms are pushed together and because they are vibrating more they push each other further away causing the ball to bounce higher.In this experiment the kinetic theory only lasted up to a certain temperature as temperature started to reach temperatures above 60 degrees the material started to melt.At 0 degrees Celsius the ball will still bounce as the atoms are still vibrating. The graph proves that the theory works for this experiment, as it is a slight curve to start with.However as the ball gets nearer the critical temperature the extra height it bounces becomes less and less. This is shown as the graph shows it is about to levels off.The sketch graph I drew in my prediction matched the real graph showing that the scientific understanding I used to explain my prediction was correct.EvaluationLooking at my results I can say that they were quite reliable and accurate. I had two anomalous results after an average of 9 measurements.I think that I did the experiment quite well although I found it hard to spot where the ball bounced up to. I have taken this into account as human error in accurately reading the where the ball bounced up to. It would have been better to record the bounce so I could zoom in and more accurately then I had done, however as I assume the human error was consistent and didnt affect my results too badly.To improve the experiment I would need to use specialist equipment like lasers so I could be sure where the ball bounced too as the surface I bounced it on, the lab floor, was in some places and I couldnt accurately control where it bounced as I made sure no input force was used to drop the ball.Another better way would have been if I used a squash ball made of a special material which could withstand higher temperatures so I cou ld have been able to carry on my experiment to see when the graph actually levels off.Also I would like to see what happened when the ball was at 0 degrees Celsius. However that would have meant using ice, which is a variable, I dont think I could have accurately kept at a suitable level to measure.I would like to do this to see whether the atoms still vibrated causing the ball to bounce. If it did I would like to carry on getting lower and lower to see whether there was a temperature where the atoms no longer vibrated (Which in theory is Absolute Zero which has never been reached).
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