EML 6267 Assignment #1 Spring 2009
Please remember to put your name on your assignment. Due: 1/21/09
1. (25 pts.) For a given single degree-of-freedom (SDOF) lumped parameter system (undamped), the free vibration, x(t), is shown below.
HW 1, problem 1 0.1
EML 6267 Assignment #7 Spring 2009
Please remember to put your name on your assignment. 1. (20 pts.) Complete problem 1 from chapter 5 of the text. a) (10 pts.) Up milling, 30% radial immersion To apply Eq. 5.2.3, we require the exit angle for the cut (de
EML 6267 Assignment #6 Spring 2009
Please remember to put your name on your assignment. Due: Monday, 3/23/09
1. (20 pts.) Complete problem 5 from chapter 4 of the text. List the Kt and Kn values for the Fourier approach. Please use plot limits of zero to
EML 6267 Assignment #5 Spring 2009
Please remember to put your name on your assignment. 1. (20 pts.) Complete problem 1 from chapter 4 of the text. a) Up milling, 30% radial immersion The radial depth of cut is 30% of the cutter diameter or 60% of its rad
EML 6267 Assignment #4 Spring 2009
Please remember to put your name on your assignment. Due: Monday, 2/16
1. (60 pts.) Complete problem 2 from chapter 3 of the text. For part d), use plot limits of zero to 20000 rpm and zero to 2 mm. a) Compute the direct
EML 6267 Assignment #3 Spring 2009
Please remember to put your name on your assignment. Due: Monday, 2/16
1. (60 pts.) Complete problem 1 from chapter 3 of the text. For part f), use plot limits of zero to 60000 rpm and zero to 10 mm. a) Calculate the dir
EML 6267 Assignment #1 Spring 2009
Please remember to put your name on your assignment. Due: 1/21/09
1. (25 pts.) For a given single degree-of-freedom (SDOF) lumped parameter system (undamped), the free vibration, x(t), is shown below.
HW 1, problem 1 0.1
EML 6267 Assignment #8 Spring 2009
Due: Not to be collected 1. Complete problem 1 from chapter 7 of the text. 2. Complete problem 2 from chapter 7 of the text. 3. Complete problem 3 from chapter 7 of the text.
EML 6267 Assignment #7 Spring 2009
Please remember to put your name on your assignment. 1. (20 pts.) Complete problem 1 from chapter 5 of the text. 2. (20 pts.) Complete problem 3 from chapter 5 of the text. 3. (20 pts.) Complete problem 4 from chapt
EML 6267 Assignment #6 Spring 2009
Please remember to put your name on your assignment. Due: Monday, 3/23/09
1. (20 pts.) Complete problem 5 from chapter 4 of the text. List the Kt and Kn values for the Fourier approach. Please use plot limits of zero to
EML 6267 Assignment #5 Spring 2009
Please remember to put your name on your assignment. 1. (20 pts.) Complete problem 1 from chapter 4 of the text. 2. (10 pts.) Complete problem 2 from chapter 4 of the text. 3. (30 pts.) Complete problem 3 from chapt
EML 6267 Assignment #4 Spring 2009
Please remember to put your name on your assignment. Due: Monday, 2/16
1. (60 pts.) Complete problem 2 from chapter 3 of the text. For part d), use plot limits of zero to 20000 rpm and zero to 2 mm. 2. (30 pts.) Co
EML 6267 Assignment #3 Spring 2009
Please remember to put your name on your assignment. Due: Monday, 2/16
1. (60 pts.) Complete problem 1 from chapter 3 of the text. For part f), use plot limits of zero to 60000 rpm and zero to 10 mm. 2. (30 pts.) Complet
EML 6267 Assignment #8 Spring 2009
Due: Not to be collected. 1. Determine the direct frequency response function,
X2 , for the two degree of freedom F2
system shown in Fig. e.7.1 using receptance coupling. Express your final result as a function of m, c,