Main Menu Screen Added for Read-me

11 years ago · 59532c039f
4 changed files with 56 additions and 57 deletions
--- a/Sources.txt
+++ b/Sources.txt
@ -2,9 +2,8 @@ Unless Otherwise noted, all sounds and music are in the public Domain.
				@@ -2,9 +2,8 @@ Unless Otherwise noted, all sounds and music are in the public Domain.

 ---------------------------

-<Turkey in the Straw>
-
-turkey_in_the_straw
+Main Menu Music
+turkey_in_the_straw.mp3

 Composition Licence: Traditional, arr. first published between 1829 and 1834. This MP3 (or other media file) is in the public domain because its copyright has expired. This applies to the United States, where Works published prior to 1978 were copyright protected for a maximum of 75 years. See Circular 1 "COPYRIGHT BASICS" from the U.S. Copyright Office. Works published before 1924 are now in the public domain.

@ -17,14 +16,45 @@ Information presented on the United States Air Force Band site is considered pub
				@@ -17,14 +16,45 @@ Information presented on the United States Air Force Band site is considered pub
 UPLOADED by Sookietex

 ---------------------------
-<Clicks>

-Freesound.org
-file name references the author name and file number.
+freesound.org
+Listed as file number, author, and title
+
+
+32371__walter-odington__frying-pan-chicken-and-onion
+36328__unclesigmund__coinbank - Crank Sound
+63531__florian-reinke__click1
+63532__florian-reinke__click2
+72565__wrinex__supermarkt-ms
+73261__jakobhandersen__click
+87564__sgak__fire
+142895__ceremonialchapstick__winchester-30-30-lever-action-eject-1
+155441__wakey__buzz1
+175678__saundklyp__tongue-click
+184438__capslok__cash-register-fake
+
+---------------------------
+
+Store Background Music:
+
+Title:	Waterford
+Artist:	Kevin MacLeod
+Genre:	World
+Length:	1:54
+Bitrate:	286 kbps
+Size:	3.88MB
+
+Simple folk-inspired ditty. Source: Kevin MacLeod
+


 ---------------------------

+
+
+Unused Music (Don't Cite this...yet)
+-----------------------------------------------------------------------------------------------------------
+
 Title:	Improved Ice Cream Truck
 Artist:	Kevin MacLeod
 Genre:	Folk
@ -32,4 +62,6 @@ Length:	0:51
				@@ -32,4 +62,6 @@ Length:	0:51
 Bitrate:	320 kbps
 Size:	1.93MB

-An improved version of a traditional Ice Cream Truck melody… whose actual title I forget.
+An improved version of a traditional Ice Cream Truck melody… whose actual title I forget.
+
+---------------------------
--- a/Main-Screen-MockupV11-24.png
+++ b/Main-Screen-MockupV11-24.png
--- a/List.xlsx
+++ b/List.xlsx
--- a/js/CookingFormula.js
+++ b/js/CookingFormula.js
@ -8,8 +8,8 @@
				@@ -8,8 +8,8 @@

 //Global Variables for Turkey
 density = 1050; // kg/m3 Assuming Density of Water 1000 kg/m3
-cp = 4300 // 2810 J/kg K for Turkey 
-heatConvection = 5; // W/m2 K Some Reasonable estimate for natural Convection. Change as needed. 5-25
+cp = 2000 // 2810 J/kg K for Turkey. Extra is to semi-account for water evaporation energy
+heatConvection = 9; // W/m2 K Some Reasonable estimate for natural Convection. Change as needed. 5-25
 thermalConduct = 0.412 // W/m K // Chicken
 globalTime = 0;

@ -38,7 +38,7 @@ depth = 1/(ratioLvG /length);
				@@ -38,7 +38,7 @@ depth = 1/(ratioLvG /length);
 height = 1/(ratioLvH /length);
 simpleRadius = length/2; //Doesn't take into account equal Volume

-rectangleVolume = depth*height*length*(1/4); //m^3  Multiple by 1/3 to account for triangular shape and empty Space
+rectangleVolume = depth*height*length; //m^3  Multiple by 1/3 to account for triangular shape and empty Space
 complexRadius = Math.pow(rectangleVolume/((4/3)*Math.PI), 1/3); //Volume of 3D Box = 3D Sphere

 console.log("Simple Radius  " + simpleRadius + " Meters")
@ -65,13 +65,6 @@ var storage = [];
				@@ -65,13 +65,6 @@ var storage = [];
 return(storage)	
 }
 	  
-function linspace(min, max, length) {
-var arr = new Array(length);
-var step = ( max - min ) / ( length - 1 );
-for (var i = 0; i < length; ++i )
-        arr[i] = min + ( i * step )
-      return arr
-}
 	
 function bisectionMethod(min,max,Biot) {
 errorTolerance = (1/Math.pow(10,8))
@ -130,30 +123,22 @@ var errorTolerance = 10; //Stove is accurate to 25 degree Celcius Should hopeful
				@@ -130,30 +123,22 @@ var errorTolerance = 10; //Stove is accurate to 25 degree Celcius Should hopeful
 	}
 }

-function layerModel(name,RadiusPercent) {
+function layerModel(name,radiusPercentage) {
 	this.name = name;
-	this.radiusPercent=RadiusPercent;
+	this.radiusPercent=radiusPercentage;
 	this.initialTemp = 20;
 	this.waterLost = 0;
 	this.finalTemperature = 20;
-	this.volume = null;
 }
 

 function turkeyModel(weight) {
-var waterMultiplier = 0
 this.totalRadius = calculateRadius(weight)
 this.skin = new layerModel("Skin",0.85)
 this.body = new layerModel("Body",0.45)
 this.core = new layerModel("Core",0.01)
-this.skin.volume = sphereVolume(this.totalRadius) - sphereVolume(this.skin.radiusPercent*this.totalRadius);
-this.body.volume = sphereVolume(this.skin.radiusPercent*this.totalRadius) - sphereVolume(this.body.radiusPercent*this.totalRadius);
-this.core.volume = sphereVolume(this.body.radiusPercent*this.totalRadius) - 0;
-this.skin.waterLost = this.skin.volume*waterMultiplier
-this.body.waterLost = this.body.volume*waterMultiplier
-this.core.waterLost = this.core.volume*waterMultiplier
-
-	this.cookCondition = function(cookValue,volume) {
+
+	this.cookCondition = function(cookValue) {
 		var multiplier = 1;
 			if (cookValue>=multiplier*250000) {
 				return("House Fire")
@ -183,31 +168,18 @@ this.core.waterLost = this.core.volume*waterMultiplier
				@@ -183,31 +168,18 @@ this.core.waterLost = this.core.volume*waterMultiplier
 		
 	this.updateLayerTemps = function() {
 	//Temperature Calculations
-	
 		this.skin.finalTemperature = transientSphereSeries (this.skin.radiusPercent*this.totalRadius,this.totalRadius,this.skin.initialTemp,ovenObject.steadyTemp,globalTime)
 		this.body.finalTemperature = transientSphereSeries (this.body.radiusPercent*this.totalRadius,this.totalRadius,this.body.initialTemp,ovenObject.steadyTemp,globalTime)
 		this.core.finalTemperature = transientSphereSeries (this.core.radiusPercent*this.totalRadius,this.totalRadius,this.core.initialTemp,ovenObject.steadyTemp,globalTime)
 		
 	//Water Loss Calculations
-		//Skin
 		this.skin.waterLost = this.skin.waterLost + waterLoss(this.skin.finalTemperature)
-			//Distribute Water
-		//this.body.waterLost = this.body.waterLost - surfaceExchange(this.body.radiusPercent*this.totalRadius,this.totalRadius)*(tempLoss);
-		
-		//Body
 		this.body.waterLost = this.body.waterLost + waterLoss(this.body.finalTemperature)
-			//Distribute Water
-		//this.skin.waterLost = this.skin.waterLost - surfaceExchange(this.skin.radiusPercent*this.totalRadius,this.body.radiusPercent*this.totalRadius)*(tempLoss);
-		//this.core.waterLost = this.core.waterLost - surfaceExchange(this.body.radiusPercent*this.totalRadius,this.skin.radiusPercent*this.totalRadius)*(tempLoss);
-		
-		//Core
 		this.core.waterLost = this.core.waterLost + waterLoss(this.core.finalTemperature)
-			//Distribute Water
-		//this.body.waterLost = this.body.waterLost - (tempLoss);
 			
-		console.log("Skin: "+ this.skin.waterLost + " " + turkey.cookCondition(this.skin.waterLost,this.skin.volume));
-		console.log("Body: "+ this.body.waterLost + " " + turkey.cookCondition(this.body.waterLost,this.body.volume));
-		console.log("Core: "+ this.core.waterLost + " " + turkey.cookCondition(this.core.waterLost,this.core.volume));
+		console.log("Skin: "+ this.skin.waterLost + " " + turkey.cookCondition(this.skin.waterLost));
+		console.log("Body: "+ this.body.waterLost + " " + turkey.cookCondition(this.body.waterLost));
+		console.log("Core: "+ this.core.waterLost + " " + turkey.cookCondition(this.core.waterLost));
 	}
 }

@ -219,13 +191,8 @@ function sphereSurfaceArea(radius) {
				@@ -219,13 +191,8 @@ function sphereSurfaceArea(radius) {
 return (4*Math.PI*Math.pow(radius,2))
 }

-function surfaceExchange(outerRadius,innerRadius) {
-var denominator = (sphereSurfaceArea(innerRadius) + sphereSurfaceArea(outerRadius) )
-return(sphereSurfaceArea(outerRadius)/denominator )
-}
 function waterLoss(temperature) {
-loss = (1) * Math.pow(10,(temperature-20)/80)-1
-return (loss)
+return (Math.pow(10,(temperature-20)/80)-1)
 }

 var oldBiot=null;
@ -235,10 +202,10 @@ var max = 10000; // This are for setting Lambda boundries and nothing else
				@@ -235,10 +202,10 @@ var max = 10000; // This are for setting Lambda boundries and nothing else
 //thermalConduct = ((tempInitial-20)*(0.13/60)) + 0.32;
 var sum=0;
 var alpha = thermalConduct/(density*cp)
-console.log("Alpha is " + alpha)
+//console.log("Alpha is " + alpha)

 var Fourier = (alpha*t)/Math.pow(rTotal,2)
-console.log("Fourier is " +  Fourier)
+//console.log("Fourier is " +  Fourier)

 var biotNum = heatConvection * rTotal/thermalConduct

@ -248,7 +215,7 @@ var biotNum = heatConvection * rTotal/thermalConduct
				@@ -248,7 +215,7 @@ var biotNum = heatConvection * rTotal/thermalConduct
 		oldBiot = biotNum;
 	}

-console.log("The Biot Value is " + biotNum)
+//console.log("The Biot Value is " + biotNum)

 for (var i = 0; i<lambdaTerms.length; i++) {
 	lambdaN = lambdaTerms[i]
@ -267,10 +234,10 @@ return(tempAtTimeAndRadius)
				@@ -267,10 +234,10 @@ return(tempAtTimeAndRadius)
 //Running the Program Stuff

 ovenObject = new oven ();
-turkey = new turkeyModel(poundsToKilograms(7.26));
+turkey = new turkeyModel(7.257);
+
+setInterval(function(){time()},1000);

-setInterval(function(){time()},10);
-//setTimeout(function(){alert(ovenObject.steadyTemp)},360000) 
 totalCookTime = 0;
 scale = 1
 function time() {