How did STATISTICS 1 go?

[randomcod]

It had to be 57. I checked by physically writing down all possible numbers on paper lol.

 

[talha196]

so you're saying 80 is not the answer. Seriously man!

its 60 not 80, apply 5p2 three times and add it !!!

 

[talha196]

It had to be 57. I checked by physically writing down all possible numbers on paper lol.

hahaha

 

[thementor]

its 60 not 80, apply 5p2 three times and add it !!!

seriously man -_-

 

[talha196]

seriously man -_-

what am i right or wrong, coz i am still not sure my answer is correct :/

 

[randomcod]

seriously man -_-

It is 60. I accidentally multiplied by 5 (please don't ask why, so many 5P something got the 5 stuck in my head and I subsconciously wrote down 5 instead of 3 and got 100), but yes, the answer is 60. It was actually one of the easier questions IMO. It had to be 60 because the paper clearly stated NO REPETITIONS for this question. 5P2 for each x 3 Good luck to everyone.

 

[Kamihus]

The mid-points and mean have been updated. The ones mentioned previously were incorrect.

Q1 [4 marks]
n=19 probability of success=0.12, find fewer than 4 so apply binomial with 0,1,2 and 3
Ans: 0.813

Q2 [4 marks]
Group A was of 7, Group B was of 2, Group C was of 2. Choose 5 and at least 1 from each group.
Possibilities:
3 from A and 1 from B and 1 from C. 7C3*2C1*2C1=140
2 from A and 2 from B and 1 from C. 7C2*2C2*2C1=42
2 from A and 1 from B and 2 from C. 7C2*2C1*2C2-42
1 from A and 2 from B and 2 from C. 7C1*2C2*2C2=7
Add them.
Ans: 231

Q3 (i) [3 marks] (ii) [2 marks]
Roger had a probability of winning first set=0.6
Roger had a probability of winning second set if he had won the first set=0.7
Roger had a probability of winning second set if he lost the first set=0.25
Match would end when any player wins 2 sets and match cannot be drawn and Andy was the other player.

(i) Probability that match would end in 2 sets.
If Roger wins: 0.6*0.7=0.42
If Andy wins: 0.4*0.75=0.3
Add them.

(ii) If match ends in 2 sets find the probability that match Andy won the match
0.3/0.72
Ans: (i) 0.72 (ii) 0.417

Q4 (i) [3 marks] (ii) [4 marks] (iii) [2 marks]
Coin A is thrown twice and Coin B once
Coin A has probability of head= 2/3
Coin B has probability of head= 1/4

(i) Show that the probability of getting 1 head is 13/36
If Coin A gives 1 head and Coin B gives none: 2*2/3*1/3*3/4=12/36 (Multiplied by 2 as both throws on Coin A can give a head)
If Coin A gives 0 heads and Coin B gives 1 head: 1/3*1/3*1/4=1/36
Add them and total= 13/36

(ii) Draw a probability distribution table of numbers of heads obtained
0 when no heads obtained: 1/3*1/3*3/4=3/36
2 when Coin A gives 2 heads: 2/3*2/3*3/4=12/36
Both Coin A and Coin B give one head each: 2*1/3*2/3*1/4=4/36 (Multiplied by 2 as both throws on Coin A can give a head)
Add them.
3 when all heads: 2/3*2/3:1/4=4/36

(iii) Find the expected value
1*13/36 + 2*16/36 +3*4/36=19/12
Ans : (ii) 0: 3/36 1:13/36 2: 16/36 3:4/36 (iii) 1.58

Q5 (i) [2 marks] (ii) [3 marks] (iii) [3 marks]
1345789 is a number

(i) Find the number of arrangements when odd numbers together and digits not repeated
5!*3! =720

(ii) Arrangements between 3000 and 5000 and even numbers and digits not repeated
When starting with 3: Last digit can be 4 or 8 so the middle two digits are 5P2=5P2*2!=40
When starting with 4: Last digit is 8 so middle two digits are 5P2=20
Total arrangements = 60

(iii) Multiples of 5 less than 1000 and digits ARE REPEATED
Last digit has to be 5 and can be 3-digit, 2-digit or 1-digit number
When 3 digit number: 7*7*1=49
When 2 digit number: 7*1=7
When 1-digit number: 1
Total =57
Ans: (i) 720 (ii) 60 (iii) 57

Q6 (i) [1 mark] (ii) [4 marks] (iii) [4 marks]
Total athletes=57
<10 were 0 <10.5 were 4 <11.0 were 10 <12.0 were 40 <12.5 were 49 <13.5 were 57

(i) Find in the interval 10.5-11.0 =6

(ii) Draw a histogram
Frequencies: 4,6,30,9,8
Frequency densities: 8,12,30,18,8

(iii) Calculate mean and variance
Mid-points: 10.25, 10.75, 11.5, 12.25, 13.0
Mean=11.7
Variance=0.547
Ans: (i) 6 (iii) 11.7, 0.547

Q7 (i) [3 marks] (ii) [2 marks] (iii) [6 marks]
Rafa studies at mean rate 1.9. The probability of studying more than 1.35 is 0.8

(i) Find Standard Deviation
Z=0.842 so S.D. =0.653

(ii) Find the probability that studies less than 2.0
(2.0-1.9)/0.653=0.1531
P=0.561

(iii) 200 samples are taken. Find the probability between 163 and 173 inclusive
np=160 npq=32
Less than 173.5: 0.9915
Less than 162.5: 0.6707
Between them= 0.321
Ans: (i) 0.653 (ii) 0.561 (iii) 0.321

Feel free to post any queries or mistakes

 

[Kamihus]

thementor ZaqZainab Talha Irfan Princess Raven ElectrodeLight96 Mayedah IGCSE13 Mohammad Farzanullah Shadow moonangel996 saadgujjar

 

[talha196]

It is 60. I accidentally multiplied by 5 (please don't ask why, so many 5P something got the 5 stuck in my head and I subsconciously wrote down 5 instead of 3 and got 100), but yes, the answer is 60. It was actually one of the easier questions IMO. It had to be 60 because the paper clearly stated NO REPETITIONS for this question. 5P2 for each x 3 Good luck to everyone.

lol dont worry man you know i made the silliest mistake on cud ever make in the third part... it was repition allowed and i did it right on the question paper but god damn when i did it on answer sheet i forgot that repitition is allowed.... facepalm,

 

[ZaqZainab]

average though i messed up the easiest question

 

[thementor]

Q1 [4 marks]
n=19 probability of success=0.12, find fewer than 4 so apply binomial with 0,1,2 and 3
Ans: 0.813

Q2 [4 marks]
Group A was of 7, Group B was of 2, Group C was of 2. Choose 5 and at least 1 from each group.
Possibilities:
3 from A and 1 from B and 1 from C. 7C3*2C1*2C1=140
2 from A and 2 from B and 1 from C. 7C2*2C2*2C1=42
2 from A and 1 from B and 2 from C. 7C2*2C1*2C2-42
1 from A and 2 from B and 2 from C. 7C1*2C2*2C2=7
Add them.
Ans: 231

Q3 (i) [3 marks] (ii) [2 marks]
Roger had a probability of winning first set=0.6
Roger had a probability of winning second set if he had won the first set=0.7
Roger had a probability of winning second set if he lost the first set=0.25
Match would end when any player wins 2 sets and match cannot be drawn and Andy was the other player.

(i) Probability that match would end in 2 sets.
If Roger wins: 0.6*0.7=0.42
If Andy wins: 0.4*0.75=0.3
Add them.

(ii) If match ends in 2 sets find the probability that match Andy won the match
0.3/0.72
Ans: (i) 0.72 (ii) 0.417

Q4 (i) [3 marks] (ii) [4 marks] (iii) [2 marks]
Coin A is thrown twice and Coin B once
Coin A has probability of head= 2/3
Coin B has probability of head= 1/4

(i) Show that the probability of getting 1 head is 13/36
If Coin A gives 1 head and Coin B gives none: 2*2/3*1/3*3/4=12/36 (Multiplied by 2 as both throws on Coin A can give a head)
If Coin A gives 0 heads and Coin B gives 1 head: 1/3*1/3*1/4=1/36
Add them and total= 13/36

(ii) Draw a probability distribution table of numbers of heads obtained
0 when no heads obtained: 1/3*1/3*3/4=3/36
2 when Coin A gives 2 heads: 2/3*2/3*3/4=12/36
Both Coin A and Coin B give one head each: 2*1/3*2/3*1/4=4/36 (Multiplied by 2 as both throws on Coin A can give a head)
Add them.
3 when all heads: 2/3*2/3:1/4=4/36

(iii) Find the expected value
1*13/36 + 2*16/36 +3*4/36=19/12
Ans : (ii) 0: 3/36 1:13/36 2: 16/36 3:4/36 (iii) 1.58

Q5 (i) [2 marks] (ii) [3 marks] (iii) [3 marks]
1345789 is a number

(i) Find the number of arrangements when odd numbers together and digits not repeated
5!*3! =720

(ii) Arrangements between 3000 and 5000 and even numbers and digits not repeated
When starting with 3: Last digit can be 4 or 8 so the middle two digits are 5P2=5P2*2!=40
When starting with 4: Last digit is 4 so middle two digits are 5P2=20
Total arrangements = 60

(iii) Multiples of 5 less than 1000 and digits ARE REPEATED
Last digit has to be 5 and can be 3-digit, 2-digit or 1-digit number
When 3 digit number: 7*7*1=49
When 2 digit number: 7*1=7
When 1-digit number: 1
Total =57
Ans: (i) 720 (ii) 60 (iii) 57

Q6 (i) [1 mark] (ii) [4 marks] (iii) [4 marks]
Total athletes=57
<10 were 0 <10.5 were 4 <11.0 were 10 <12.0 were 40 <12.5 were 49 <13.5 were 57

(i) Find in the interval 10.5-11.0 =6

(ii) Draw a histogram
Frequencies: 4,6,30,9,8
Frequency densities: 8,12,30,18,8

(iii) Calculate mean and variance
Mid-points: 10.2, 10.7, 11.45, 12.2, 12.95
Mean=11.6
Variance=0.547
Ans: (i) 6 (iii) 11.6, 0.547
Q7 (i) [3 marks] (ii) [2 marks] (iii) [6 marks]
Rafa studies at mean rate 1.9. The probability of studying more than 1.35 is 0.8

(i) Find Standard Deviation
Z=0.842 so S.D. =0.653
(ii) Find the probability that studies less than 2.0
(2.0-1.9)/0.653=0.1531
P=0.561

(iii) 200 samples are taken. Find the probability between 163 and 173 inclusive
np=160 npq=32
Less than 173.5: 0.9915
Less than 162.5: 0.6707
Between them= 0.321
Ans: (i) 0.653 (ii) 0.561 (iii) 0.321

Feel free to post any queries or mistakes

Q3(II) is wrong. The answer is 0.583
The conditional probability will be (0.6*0.7)/0.72 = 0.583

 

[Kamihus]

Q3(II) is wrong. The answer is 0.583
The conditional probability will be (0.6*0.7)/0.72 = 0.583

We have to find of Andy, not Roger, Andy has 0.3 and total is 0.72.

 

[ZaqZainab]

i gave variant 2 Kamihus what was your variant?

 

[Kamihus]

i gave variant 2 Kamihus what was your variant?

Variant 2

 

[randomcod]

Yes!!! Get in!!!
I am so happy. According to this mark scheme, I got 46/50 (given I made no stupid errors I don't remember). Plus 69/75 on the other paper. I hope this secures me an A. So happy!!

 

[IGCSE13]

Ho

Q1 [4 marks]
n=19 probability of success=0.12, find fewer than 4 so apply binomial with 0,1,2 and 3
Ans: 0.813

Q2 [4 marks]
Group A was of 7, Group B was of 2, Group C was of 2. Choose 5 and at least 1 from each group.
Possibilities:
3 from A and 1 from B and 1 from C. 7C3*2C1*2C1=140
2 from A and 2 from B and 1 from C. 7C2*2C2*2C1=42
2 from A and 1 from B and 2 from C. 7C2*2C1*2C2-42
1 from A and 2 from B and 2 from C. 7C1*2C2*2C2=7
Add them.
Ans: 231

Q3 (i) [3 marks] (ii) [2 marks]
Roger had a probability of winning first set=0.6
Roger had a probability of winning second set if he had won the first set=0.7
Roger had a probability of winning second set if he lost the first set=0.25
Match would end when any player wins 2 sets and match cannot be drawn and Andy was the other player.

(i) Probability that match would end in 2 sets.
If Roger wins: 0.6*0.7=0.42
If Andy wins: 0.4*0.75=0.3
Add them.

(ii) If match ends in 2 sets find the probability that match Andy won the match
0.3/0.72
Ans: (i) 0.72 (ii) 0.417

Q4 (i) [3 marks] (ii) [4 marks] (iii) [2 marks]
Coin A is thrown twice and Coin B once
Coin A has probability of head= 2/3
Coin B has probability of head= 1/4

(i) Show that the probability of getting 1 head is 13/36
If Coin A gives 1 head and Coin B gives none: 2*2/3*1/3*3/4=12/36 (Multiplied by 2 as both throws on Coin A can give a head)
If Coin A gives 0 heads and Coin B gives 1 head: 1/3*1/3*1/4=1/36
Add them and total= 13/36

(ii) Draw a probability distribution table of numbers of heads obtained
0 when no heads obtained: 1/3*1/3*3/4=3/36
2 when Coin A gives 2 heads: 2/3*2/3*3/4=12/36
Both Coin A and Coin B give one head each: 2*1/3*2/3*1/4=4/36 (Multiplied by 2 as both throws on Coin A can give a head)
Add them.
3 when all heads: 2/3*2/3:1/4=4/36

(iii) Find the expected value
1*13/36 + 2*16/36 +3*4/36=19/12
Ans : (ii) 0: 3/36 1:13/36 2: 16/36 3:4/36 (iii) 1.58

Q5 (i) [2 marks] (ii) [3 marks] (iii) [3 marks]
1345789 is a number

(i) Find the number of arrangements when odd numbers together and digits not repeated
5!*3! =720

(ii) Arrangements between 3000 and 5000 and even numbers and digits not repeated
When starting with 3: Last digit can be 4 or 8 so the middle two digits are 5P2=5P2*2!=40
When starting with 4: Last digit is 4 so middle two digits are 5P2=20
Total arrangements = 60

(iii) Multiples of 5 less than 1000 and digits ARE REPEATED
Last digit has to be 5 and can be 3-digit, 2-digit or 1-digit number
When 3 digit number: 7*7*1=49
When 2 digit number: 7*1=7
When 1-digit number: 1
Total =57
Ans: (i) 720 (ii) 60 (iii) 57

Q6 (i) [1 mark] (ii) [4 marks] (iii) [4 marks]
Total athletes=57
<10 were 0 <10.5 were 4 <11.0 were 10 <12.0 were 40 <12.5 were 49 <13.5 were 57

(i) Find in the interval 10.5-11.0 =6

(ii) Draw a histogram
Frequencies: 4,6,30,9,8
Frequency densities: 8,12,30,18,8

(iii) Calculate mean and variance
Mid-points: 10.2, 10.7, 11.45, 12.2, 12.95
Mean=11.6
Variance=0.547
Ans: (i) 6 (iii) 11.6, 0.547
Q7 (i) [3 marks] (ii) [2 marks] (iii) [6 marks]
Rafa studies at mean rate 1.9. The probability of studying more than 1.35 is 0.8

(i) Find Standard Deviation
Z=0.842 so S.D. =0.653
(ii) Find the probability that studies less than 2.0
(2.0-1.9)/0.653=0.1531
P=0.561

(iii) 200 samples are taken. Find the probability between 163 and 173 inclusive
np=160 npq=32
Less than 173.5: 0.9915
Less than 162.5: 0.6707
Between them= 0.321
Ans: (i) 0.653 (ii) 0.561 (iii) 0.321

Feel free to post any queries or mistakes [/

Which formula did you use for the mean and variance in q6iii

 

[Kamihus]

Ho

Which formula did you use for the mean and variance in q6iii

The one for the grouped data. These are by using the exact values. I also solved them on the stat mode on the calculator and got this answer.

 

[IGCSE13]

The one for the grouped data. These are by using the exact values. I also solved them on the stat mode on the calculator and got this answer.

Shouldn't you multiply the midpoints by the frequencies and then divide by the total frequency

 

[Kamihus]

Shouldn't you multiply the midpoints by the frequencies and then divide by the total frequency

You have to multiply the square of mid-points by frequencies and then subtract the square of mean.

 

[saadgujjar]

i am getting 40+ easily...what will be expected gt....i think 35-37