From 7f60ea012dd2524dae921a2a35adbf7ef21f2bb6 Mon Sep 17 00:00:00 2001
From: prashantsinalkar
Date: Tue, 10 Oct 2017 12:27:19 +0530
Subject: initial commit / add all books

---
 698/CH26/EX26.7/7_diameter_of_rimmed_flywheel.txt  | 20 +++++++++
 698/CH26/EX26.7/P7_diameter_of_rimmed_flywheel.sce | 50 ++++++++++++++++++++++
 2 files changed, 70 insertions(+)
 create mode 100644 698/CH26/EX26.7/7_diameter_of_rimmed_flywheel.txt
 create mode 100644 698/CH26/EX26.7/P7_diameter_of_rimmed_flywheel.sce

(limited to '698/CH26/EX26.7')

diff --git a/698/CH26/EX26.7/7_diameter_of_rimmed_flywheel.txt b/698/CH26/EX26.7/7_diameter_of_rimmed_flywheel.txt
new file mode 100644
index 000000000..c314a95ea
--- /dev/null
+++ b/698/CH26/EX26.7/7_diameter_of_rimmed_flywheel.txt
@@ -0,0 +1,20 @@
+(a)Average torque Mt=5968.31 Nm
+
+(b)Energy output per cycle=75000.00 Nm
+Energy output during power stroke=112500.00 Nm
+Energy stored in the flywheel=106531.69 Nm
+
+(c)Stress=rho*V^2
+	V=23.57 m/s
+	V=r*w
+	r=V/w=1.125 m
+
+(d)Mass of rim of flywheel:
+	mr=(K*E)/(V^2 *delta) =5752.71 kg
+
+(e)Dimensions of rim
+	mr=pi*Dm*t*b*rho
+For square rim, t=b=0.336 m
+
+For rectangular rim, b=2t=0.475 m and t=0.238 m
+
diff --git a/698/CH26/EX26.7/P7_diameter_of_rimmed_flywheel.sce b/698/CH26/EX26.7/P7_diameter_of_rimmed_flywheel.sce
new file mode 100644
index 000000000..4c63602e6
--- /dev/null
+++ b/698/CH26/EX26.7/P7_diameter_of_rimmed_flywheel.sce
@@ -0,0 +1,50 @@
+clc
+//Example 26.7
+//Diameter of rimmed flywheel
+
+//------------------------------------------------------------------------------
+
+//Given data
+P=125000
+N=200
+Mt=(125000*60)/(2*%pi*200)
+Ecycle=Mt*4*%pi
+Estroke=1.5*Ecycle
+
+rho=7200
+St=4* 10^6
+
+res7=mopen(TMPDIR+'7_diameter_of_rimmed_flywheel.txt','wt')
+
+mfprintf(res7,'(a)Average torque Mt=%0.2f Nm\n\n',Mt)
+
+mfprintf(res7,'(b)Energy output per cycle=%0.2f Nm\n',Ecycle)
+mfprintf(res7,'Energy output during power stroke=%0.2f Nm\n',Estroke)
+mfprintf(res7,'Energy stored in the flywheel=%0.2f Nm\n\n',Estroke-Mt)
+
+mfprintf(res7,'(c)Stress=rho*V^2\n')
+V=sqrt(St/rho)
+mfprintf(res7,'\tV=%0.2f m/s\n',V)
+r=(V*60)/(2*%pi*N)
+mfprintf(res7,'\tV=r*w\n\tr=V/w=%0.3f m\n\n',r)
+
+mfprintf(res7,'(d)Mass of rim of flywheel:\n')
+K=0.9
+E=Estroke-Mt
+delta=0.03
+mr=(K*E)/(V^2 *delta)
+mfprintf(res7,'\tmr=(K*E)/(V^2 *delta) =%0.2f kg\n\n',mr)
+
+mfprintf(res7,'(e)Dimensions of rim\n\tmr=pi*Dm*t*b*rho\n')
+Dm=2*r
+t=sqrt(mr/(%pi*Dm*rho))
+mfprintf(res7,'For square rim, t=b=%0.3f m\n\n',t)
+t=sqrt(mr/(%pi*Dm*rho*2))
+mfprintf(res7,'For rectangular rim, b=2t=%0.3f m and t=%0.3f m\n\n',2*t,t)
+
+
+
+mclose(res7)
+editor(TMPDIR+'7_diameter_of_rimmed_flywheel.txt')
+//------------------------------------------------------------------------------
+//-----------------------------End of program-----------------------------------
-- 
cgit