Physics ATP

[NokiaN95638]

I need help for these Physics p4 questions:
M/J 04 no.1(a),no.3(a) ,b(ii) 5(b)
O/n 04 no.1, no. 2(a).
Any tips on how to do well in ATP and it would be gr8 if sum1 cud give me sum notes about ATP.
Thanks.

 

[InshallahAajaega]

yar plz post the questions here :/

 

[abcde]

Post the links please!

 

[NokiaN95638]

http://www.xtremepapers.me/CIE/Cambridg ... 4_qp_4.pdf

[no.1(a),no.3(a) ,b(ii) 5(b)]


http://www.xtremepapers.me/CIE/Cambridg ... 4_qp_4.pdf

[no.1, no. 2(a).]

 

[abcde]

Hmm.. Give me time. I can answer those. But kindly wait...

 

[abcde]

http://www.xtremepapers.me/CIE/Cambridge%20O%20Levels/5054%20-%20Physics/5054_s04_qp_4.pdf

[no.1(a),no.3(a) ,b(ii) 5(b)]


http://www.xtremepapers.me/CIE/Cambridg ... 4_qp_4.pdf

[no.1, no. 2(a).]

Here's question number 1 of the first link:

 

[abcde]

http://www.xtremepapers.me/CIE/Cambridge%20O%20Levels/5054%20-%20Physics/5054_s04_qp_4.pdf

[no.1(a),no.3(a) ,b(ii) 5(b)]


http://www.xtremepapers.me/CIE/Cambridg ... 4_qp_4.pdf

[no.1, no. 2(a).]

Ans 3. (a) Place the 300 mm rule adjacent to the thermometer so that its sides touch the thermometer. Read off the scale at which the mercury thread in the bore starts (l1) and ends (l2). Avoid parallax error by aligning the line of sight perpendicular to the scale of the thermometer. The length, l , is found by the subtraction , l = l2 - l1
(b) (ii) l = (22.8 - 5.6)/ (100 - 0) = 17.2/100 = 0.172 cm (increase in length)
5.(b)(ii) The object, lens and the image (screen) must be parallel to each other and the centre of each item on the same horizontal axis.

 

[adnanj]

http://www.xtremepapers.me/CIE/Cambridge%20O%20Levels/5054%20-%20Physics/5054_s04_qp_4.pdf

[no.1(a),no.3(a) ,b(ii) 5(b)]


http://www.xtremepapers.me/CIE/Cambridg ... 4_qp_4.pdf

[no.1, no. 2(a).]

Ans 3. (a) Place the 300 mm rule adjacent to the thermometer so that its sides touch the thermometer. Read off the scale at which the mercury thread in the bore starts (l1) and ends (l2). Avoid parallax error by aligning the line of sight perpendicular to the scale of the thermometer. The length, l , is found by the subtraction , l = l2 - l1
(b) (ii) l = (22.8 - 5.6)/ (100 - 0) = 17.2/100 = 0.172 cm (increase in length)
5.(b)(ii) The object, lens and the image (screen) must be parallel to each other and the centre of each item on the same horizontal axis.

I didn't understand 5b(ii) ...

 

[abcde]

Coming towards the second paper.
Q1) Unroll a large piece of wire from the reel. Starting from any randomly chosen point on the metre rule, wind the wire around the rule. Adjacent turns should touch each other but not overlap. The ends of the wire can be held in place by using plasticine to attach it firmly to the rule. Count the number of turns, N, of the thin wire around the rule. Observe the markings at which the wire starts (l1) and ends (l2) and subtract them to obtain the length l of the coil around the rule, l = l2 - l1. 'd' can be found out by dividing l with the number of turns, N. That is, d = l / N. Avoid parallax error and keep the coils tight together for greater accuracy. This method only gives an average value for 'd' as each turn has contributed to give a value of l, which is used to find the diameter. No wire will have a constant diameter.
For 2 (a) make a table like this:
Hope this helps

 

[abcde]

Sorry, this is the table:

 

[adnanj]

Coming towards the second paper.
Q1) Unroll a large piece of wire from the reel. Starting from any randomly chosen point on the metre rule, wind the wire around the rule. Adjacent turns should touch each other but not overlap. The ends of the wire can be held in place by using plasticine to attach it firmly to the rule. Count the number of turns, N, of the thin wire around the rule. Observe the markings at which the wire starts (l1) and ends (l2) and subtract them to obtain the length l of the coil around the rule, l = l2 - l1. 'd' can be found out by dividing l with the number of turns, N. That is, d = l / N. Avoid parallax error and keep the coils tight together for greater accuracy. This method only gives an average value for 'd' as each turn has contributed to give a value of l, which is used to find the diameter. No wire will have a constant diameter.
For 2 (a) make a table like this:
Hope this helps

finding it tooo difficult to understand (

 

[RaTeDRSuPeRsTaR]

hehhehe