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Physics: Post your doubts here!

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i would like to get some help from my MCQ Paper which i did this year may june 9702/mj/13/q11
question paper 11
please help me to solve this questions
here are the questions 6,8,17,18,19,21,24,27,32,35 thank you
 
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i would like to get some help from my MCQ Paper which i did this year may june 9702/mj/13/q11
question paper 11
please help me to solve this questions
here are the questions 6,8,17,18,19,21,24,27,32,35 thank you
 
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How to solve this please help
 

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How to solve this please help

Since the forces are all in equilibrium, the upward force must be equal to the downward force. So the vertical component of T must be equal to 5*9.81
So Tsin(60)=5*9.81
Find T by making it the subject.
Since the two forces acting horizontally are F and the horizontal component, and because they are both in different directions, they should be equal in magnitude. So Tcos(60)=F

For the next question, 2Tcos(30)=10*9.81

Find T
 
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Hi, can anyone please help me take a look at this Physics question from the picture attached:​
It is regarding AC transmission involving voltage supplied and power used.​
Any explanation is very appreciated, Thank you very much!​
 

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Can anybody plz help me wid QUESTION 12 of this paper the answer is A......and also wid QUeSTION 15 whose answer is D....

http://papers.xtremepapers.com/CIE/Cambridge International A and AS Level/Physics (9702)/9702_s12_qp_11.pdf
Q12: we'll take this problem in terms of the forces acting on the barrel and the man
for the barrel: the force due to the barrel - the tension in the rope(T) = ma (because the barrel move's down, the force due to the barrel is greater than the tension)
(120*10) - T = 120a (we dont know the acceleration of the man and the barrel)
for the man: the tension (T) - the force due to the man = ma
T - (80*a) = 80a
find the value of a using simultaneous equations, which is 2 ms^-2
using v^2=u^2 + 2as
find the final velocity of the man at 9 m, taking u as 0 ms^-1

Q15 in order to keep the column from falling, the reaction force must move to the right.
 
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Also question number 13 and 14 of http://papers.xtremepapers.com/CIE/...nd AS Level/Physics (9702)/9702_s12_qp_12.pdf
whose answers are A and B respectively....
Q13: you use the same concept here too, just like the previous example
for the 2 kg mass: F - T = ma
2*9.81 - T = 2a
for the box: T - friction(Fr) = ma
T - 6 = 8a
solve the equations simultaneously, and get the value of a which is 1.362 ms^-2 = 1.4 ms^-2

Q14: the ladder is not stable, so the force P will not be exactly horizontal, but the other two forces will remain vertical
 
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Q12: we'll take this problem in terms of the forces acting on the barrel and the man
for the barrel: the force due to the barrel - the tension in the rope(T) = ma (because the barrel move's down, the force due to the barrel is greater than the tension)
(120*10) - T = 120a (we dont know the acceleration of the man and the barrel)
for the man: the tension (T) - the force due to the man = ma
T - (80*a) = 80a
find the value of a using simultaneous equations, which is 2 ms^-2
using v^2=u^2 + 2as
find the final velocity of the man at 9 m, taking u as 0 ms^-1

Q15 in order to keep the column from falling, the reaction force must move to the right.
Q13: you use the same concept here too, just like the previous example
for the 2 kg mass: F - T = ma
2*9.81 - T = 2a
for the box: T - friction(Fr) = ma
T - 6 = 8a
solve the equations simultaneously, and get the value of a which is 1.362 ms^-2 = 1.4 ms^-2

Q14: the ladder is not stable, so the force P will not be exactly horizontal, but the other two forces will remain vertical

OMG thanx alott........i don't know why i can't manange p1 of physics......just pray for me i have the school exam tommorrow!!

THANX AGAIN!!!! :)
 
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HELLO EVERYONE. HAPPY VICTORY DAY TO ALL.... ON THIS DAY IN 1971 PAKISTAN SURRENDERED THEMSELVES TO US N WE GOT OUR VICTORY AND OUR COUNTRY BANGLADESH....
 
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