To ZCT 104/E tutors: En. Ibrahim Mustapha, En. Ben Merican, En. Low Ah Chuan, Mohd. Norawi Ali, Pn. Azwa Tan, Lee Yan Cheung, Ooi Hean Team, Ooi Pei Chen, Ooi Poh Choon, Suria Othman, Tan Teng Yong, Teoh Kok Seng, Yeap Pei Koon

 

ZCT 104 TUT CLASS ON 3 DEC 2004

 

 1) I would like to remind that the tutorial class list has been up. you could check your tutorial group at the course webpage http://www.usm.my/phy/tlyoon/teaching/ZCT104_04-05/ZCT104tutoriallist.htm

 

2) we will have our first tutorial class on this friday, 5 - 6 pm.

 

3) I have not received email address from the following tutors:

     a) Teoh Kok Seng

    b) Ooi PEi Chen

    c) Ooi Hean Team

 If any of u do know them please inform them to send me their email contact.

 

4) PLEASE SEND ME YOUR CONSULTATION HOUR VIA EMAIL (1 HOUR PER WEEK) SO THAT I CAN PUT THESE INFORMATION UP IN THE COURSE WEBPAGE.

 

 

5) Please be reminded that the lecture only covers up to Lorentz transformation of coordinate transform, and has not touched on the LT of velocity nor relativistic dynamics and so on (such as E - mc^2 or relativistic momentum). So there are quite a number of tut questions not suitable to be discussed in this week's tutorial class. 

 

    I list down which are the tutorial questions NOT suitable to be discussed in this week's tut class: 

 

    Conceptual quesion: 2), 3) 4) 

    Problems: 4), 5), 6), 7) 8).

    [THESE QUESTONS ARE NOT TO BE DISCUSSED IN THIS WEEK'S TUT CLASS BECAUSE WE         HAVE NOT TAUGHT THEM YET IN THE LECTURE]

 

    So these left only a few tut questions that can be discussed. So, please discuss only

 

    Conceptual question: 1)

                   Problems: 1), 2), 3)

 

    in this week's tut class.

   

    The other quesions  are best left to the next tut session in (10 Dec 2004)

 

6) btw, there is a slight mistake in the solution to the first tutorial conceptual question no. 4(a):  it shoud read

(a) Rest mass = m0. Hence for case 1: m0 m0c2=A; Case 2:m0c2=A; Case 3: m0c2 =3A. Therefore, the answer is: mass in (3) > mass in (2) = mass in (1);

 

thanks for helping me out in the tutorial class.

 

By Yoon Tiem Leong    2 Dec 2004