Description of methods

1. Experimentation: Measuring Santa’s ΔT caused by air friction during gift distribution process KalleMestarietsivä Keywords: Santa Claus, friction, temperature, velocity Introduction Here is a short introduction to the topic. Remember to include background and justification. Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum.Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum. Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum.Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum.Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Hypothesis The experimentation will show that 95% of Santa Clauses do not burn to cinders due air friction during gift distribution process. Focus Experimentation is focused on the temperature change caused by air friction. Land-based Santas are not considered in this experimentation. Also, traumatization of Rudolph due to burning Santa is not considered. Description of methods Following methods will be utilized to collect, process and analyze the data: 1. Continuous measurement of temperature and velocity produces triplets of time, velocity and temperature. Data is collected by tachometer and thermometer and sent to portable collection unit. Fs=100 Hz. 2. Transforming the data into format that can be used in Matlabproduces data file readable by Matlab from the triplets. 3. Regression analysis will produce an equation for a curve that fits the gathered data. In addition, the goodness of the fit will be measured. Additional step can be dropping erroneous measurements. Regression analysis will produce a curve that can be used to extrapolate the minimum velocity that is needed in order to cause Santa Claus catch fire. Due to the unknown properties of Santa’s clothing it can be reliably assumed that first thing that will catch fire is Santa’s beard in about 400 K. Table 1: Summary of methods Experimentation setting Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum.Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum. Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum.Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum.Duisauteirure dolor in reprehenderit in voluptatevelitessecillumdoloreeufugiatnullapariatur. Excepteursintoccaecatcupidatat non proident, sunt in culpa qui officiadeseruntmollitanim id estlaborum. Figure 1: Experimentation setting T-106.6200 Special course in Software Techniques: Research and product development methods Arranged by PM&RG research group Head of the research group: MerviRanta Coordinator: Henrik J. Asplund Email: pmrg@tkk.fi WWW pages: http://www.cs.hut.fi/~pmrg Telephone: +358 9 451 4807