Using the customer part of your three presentations answer the following questions: 1. What SAP product/modules are focused in your three presentations? 2. What SAP modules has the company…Full description
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ELECTRONIC ENGINE
Perkins 1104D (Mech) Industrial Engine Disassembly and AssemblyDeskripsi lengkap
NAME:____________________________________ Roll No:_______________ Group:_______________
_______________(Date)___________ _________ This submission is original work and no part is plagiarized (signed) _______________(Date)__
Thapar University, Patiala MECHANICAL ENGINEERING DEPARTMENT ASSIGNMENT - 1. DYNAMICS FOR THE MANGONEL-NO DRAG
UTA010 Engineering Design-II
A.S.Jawanda (Reference: TCD course 1E10)
Page 1 of 10
NAME:____________________________________ Roll No:_______________ Group:_______________
ASSIGNMENT - 1. DYNAMICS FOR THE MANGONEL-NO DRAG
The following assignment has been based on the lecture on projectile dynamics for the Mangonel -with No drag. Complete the following individually, copying will be dealt with severely. Notes: 1. Ensure on all graphs the curve is visible and sufficient resolution is provided so that the height and distance is determinable. The following chart is an example for 70 degrees at 22m/s. Note: to Compulsory Add Text box of Name and Roll No to every graph as shown.
2. The excel graph and results for : One Launch angle in degrees, velocity in m/s have to be shown for evaluation on the same day. While the print of this word document with graphs (with Name and Roll No in text box) and hand written conclusion, name and roll number on every page , stapled together, is to be submitted in next Tutorial class (if it is a holiday, then as instructed). 3. Do not leave this assignment until the last minute to find you have some IT issue. Enjoy the assignment and try to think around the subject as much as possible and take from it any tips that you might use with your own Mangonel design. Marking Scheme: Tutorial 1 Total = 10 Marks Evaluation at end of 2 Hours Tutorial 1= 5 Submission of Tutorial 1 print tagged in folder=5 Weightage Assignment 1 (10 Marks) + Assignment 2 (10 Marks) = 10% for both. A.S.Jawanda (Reference: TCD course 1E10)
Page 2 of 10
NAME:____________________________________ Roll No:_______________ Group:_______________
TUTORIAL CLASS EVALUATION [5 Marks] Only Q1e below evaluated at the end of 2 Hours of tutorial class on computer. One Marks each for: 1. Excel sheet formulation, 2. Layout, 3. Graph series, 4. Graph clarity and 5. Graph format, as given in note. NOTE : Compulsory to Add Text box of Name and Roll No to every graph as shown.
Q1. Using the Excel spread sheet that you have developed to model the dynamics of a “missile” cast by the Mangonel, copy and paste graphs for the following into this document a. No drag: Launch angle 20 degrees, velocity 10m/s
Velocity=20m/sec angle=20 degree 0.7 0.6 0.5 t h 0.4 g i e H l0.3 a c i t r 0.2 e V
0.1 0 0 -0.1
1
2
3
4
5
6
7
Horizontal Range
A.S.Jawanda (Reference: TCD course 1E10)
Page 3 of 10
NAME:____________________________________ Roll No:_______________ Group:_______________
b. No drag: Launch angle 30 degrees, velocity 10m/s
Velocity=10m/sec Angle= 30 degree 1.4 1.2 t 1 h g i e 0.8 H l a c 0.6 i t r e V0.4
0.2 0 0
2
4
6
8
10
Horizontal Range
A.S.Jawanda (Reference: TCD course 1E10)
Page 4 of 10
NAME:____________________________________ Roll No:_______________ Group:_______________
c. No drag: Launch angle 45 degrees, velocity 10m/s
Velocity=10m/sec Angle= 45 degrees 3 2.5 t h 2 g i e H l 1.5 a c i t r e 1 V
0.5 0 0
2
4
6
8
10
12
Horizontal Range
A.S.Jawanda (Reference: TCD course 1E10)
Page 5 of 10
NAME:____________________________________ Roll No:_______________ Group:_______________
d. No drag: Launch angle 60 degrees, velocity 10m/s
Velocity=10m/sec Angle=60 degree 4.5 4 3.5 t h g i e H l a c i t r e V
3 2.5 2 1.5 1 0.5 0
-0.5 0
2
4
6
8
10
Horizontal Range
A.S.Jawanda (Reference: TCD course 1E10)
Page 6 of 10
NAME:____________________________________ Roll No:_______________ Group:_______________
e. No drag: Launch angle 70 degrees, velocity 10m/s
V=10m/s angle=70 degree 5 4.5 4 t 3.5 h g i e 3 H l 2.5 a c i t 2 r e V1.5
1 0.5 0 0
1
2
3
4
5
6
7
Horizontal Range
A.S.Jawanda (Reference: TCD course 1E10)
Page 7 of 10
NAME:____________________________________ Roll No:_______________ Group:_______________
Q2. Plot a combined graph for No drag: Launch velocity 20m/s for angle varying from 20 degrees to 80 degrees in step of 5 degrees.
Without Drag v=20m/s theta varing from 20° to 80° with increment of 5° 25
NAME:____________________________________ Roll No:_______________ Group:_______________
Q3. Plot a combined graph for No drag: Angle 45 degrees and launch velocity varying from 5m/s to 45 m/s in step of 5 m/s.
Without drag velocity varing from 5m/s to 45m/s at an angle of 45° 55 50
Name:Dipin Preet Singh Roll No. :401706008
45
vel5 angle45 vel10angle45
40
vel15angle45
35
) m 30 ( t h g25 i e H 20
vel20angle45
15
vel40angle45
10
vel45 angle45
vel25angle45 vel30angle45 vel35angle45
5 0 0
20
40
60
80
100 120 140 160 180 200 Range(m)
A.S.Jawanda (Reference: TCD course 1E10)
Page 9 of 10
NAME:____________________________________ Roll No:_______________ Group:_______________
Q4. For the combined graphs in Q1, Q2 and Q3 comment on the effect of angle of launch and velocity on the horizontal distance travelled. [5 Marks] (HANDWRITTEN ONLY)
