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All about Dice and Days of year (in Hindi)🎲🎲
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Sample space of 2 dices and leap year days problem in probability

Jagat Chaudhary is teaching live on Unacademy Plus

Jagat Chaudhary
Qualified IIT-JEE,IIT-JAM. Expert faculty for IIT-JEE Mathematics Courses. M.Sc. Ph.D. (MATHEMATICS) IIT Bhubaneswar.Cofounder at Aspiration
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I am going through your lessons and solving ncert problems, is it enough prepare for boards ?
2
Reply
Shaillee Kaushal
5 months ago
Yes
these events are mutually exclusive events
0
Reply
mutually exclusive not exhaustive
1
Reply
Jagat Chaudhary
10 months ago
yes, your answer is exact. good work. keep it up.:)
Mayank Awasthi
9 months ago
par sir either dice par 2 ana to common a rha hai or is tarah intersection possible hai to ye mutually exclusive kaise hua
Jagat Chaudhary
9 months ago
Mayank, sum greater than 8 bhi to hona chahiye. sum 9 ya uss se jyaada hona chahiye, issliye (6,2) and (2,6) ko count nh kiya jaayega A mein
Mayank Awasthi
9 months ago
okk sir
Mayank Awasthi
9 months ago
thank you sir
Jagat Chaudhary
9 months ago
:) keep learning and doubts puuchte rhiye.
Arun Mishra
9 months ago
A :- 8/36
Rahul Kumar
5 months ago
4/30nhi smj aa aaya baaki sb to awesome👏✊👍 h
Rahul Kumar
5 months ago
a) 1/6
Rahul Kumar
5 months ago
sum six aaaa jai use sample space maaan lene se ans same kese aa@aayega my ans is 2/5
sir pichle lesson ka assignment Q. ka ans de dijiye
2
Reply
Jagat Chaudhary
10 months ago
0.35
A :-. 8/36 exclusive
1
Reply
Jagat Chaudhary
9 months ago
Right answer Arun, keep learning and please rate the course and write a review :)
1
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Jagat Chaudhary
9 months ago
For which question? Arun, can you olease mention the time in this video?

  1. IIT-JEE (main +Advanced) Probability On


  2. Throwing a pair of Dice


  3. Throwing a pair of Dice All possible combinations of 2 dice


  4. Throwing a pair of Dice


  5. Throwing a pair of Dice Sum on Dice Probabiliy


  6. Throwing a pair of Dice Sum on Dice Probabiliy 4 6 10 12


  7. Throwing a pair of Dice Sum on Dice Probabiliy 1/36 4 6 10 12


  8. Throwing a pair of Dice Sum on Dice Probabiliy 1/36 2/36 4 6 10 12


  9. Throwing a pair of Dice Sum on Dice Probabiliy 1/36 2/36 3/36 4/36 5/36 6/36 4 6 10 12


  10. Throwing a pair of Dice Sum on Dice Probabiliy 1/36 2/36 3/36 4/36 5/36 6/36 5/36 4 6 10 12


  11. Throwing a pair of Dice Sum on Dice Probabiliy 1/36 2/36 3/36 4/36 5/36 6/36 5/36 4/36 3/36 2/36 1/36 4 6 10 12


  12. P (Prime total)


  13. P(Prime total)-1+2+4+6+2 36 P(Doublet)


  14. 1+2+4+6+2 P(Prime total) P(Doublet) 3 P(Different numbers and sum is 6)- 36 4 30


  15. 4 P(Different numbers and sum is 6)- because sample is having 30 elements only because doublets are not possible, they are not in sample space 30 P(Different numbers and 1 appear on any die)-10/30


  16. Ques: If A be event that sum of two numbers is 6 and B be an event that the largest of two numbers Is 4.then Probability of their simultaneous occurance


  17. Ques: If A be event that sum of two numbers is 6 and B be an event that the largest of two numbers Is 4.then Probability of their simultaneous occurance


  18. Ques: A leap year is selected at random. Find probability that it has 53 Sundays.


  19. Ques: A leap year is selected at random. Find probability that it has 53 Sundays. Note: leap year has 366 days.


  20. Ques: A leap year is selected at random. Find probability that it has 53 Sundays. Note: leap year has 366 days. Consider an imaginary year of 7 days then it will have exactly 1 Monday,1 Tuesday and... 1 Sunday.


  21. Ques: A leap year is selected at random. Find probability that it has 53 Sundays. Note: leap year has 366 days. Consider an imaginary year of 7 days then it will have exactly 1 Monday,1 Tuesday and... 1 Sunday. an imaginary year of 14 days then it will have exactly 2 Monday,2 Tuesday and... 2 Sunday. If days are multiple of 7 then exact number of all days are there.


  22. Ques: A leap year is selected at random. Find probability that it has 53 Sundays. Note: leap year has 366 days. Consider an imaginary year of 7 days then it will have exactly 1 Monday,1 Tuesday and... 1 Sunday. an imaginary year of 14 days then it will have exactly 2 Monday,2 Tuesday and... 2 Sunday. If days are multiple of 7 then exact number of all days are there. If there are 364 days then 52 sundays are there and all days are 52


  23. Ques: A leap year is selected at random. Find probability that it has 53 Sundays. Note: leap year has 366 days. Consider an imaginary year of 7 days then it will have exactly 1 Monday,1 Tuesday and... 1 Sunday. an imaginary year of 14 days then it will have exactly 2 Monday,2 Tuesday and... 2 Sunday. If days are multiple of 7 then exact number of all days are there. If there are 364 days then 52 sundays are there and all days are 52. if there are 366 days then other two days can be


  24. Ques: A leap year is selected at random. Find probability that it has 53 Sundays. Note: leap year has 366 days. Consider an imaginary year of 7 days then it will have exactly 1 Monday,1 Tuesday and... 1 Sunday. an imaginary year of 14 days then it will have exactly 2 Monday,2 Tuesday and... 2 Sunday If days are multiple of 7 then exact number of all days are there. If there are 364 days then 52 sundays are there and all days are 52. if there are 366 days then other two days can be SM,MT,TW,WT,TF,FS,SS)


  25. Ques: A leap year is selected at random. Find probability that it has 53 Sundays. Note: leap year has 366 days. Consider an imaginary year of 7 days then it will have exactly 1 Monday,1 Tuesday and. 1 Sunday. an imaginary year of 14 days then it will have exactly 2 Monday,2 Tuesday and... 2 Sunday. If days are multiple of 7 then exact number of all days are there. If there are 364 days then 52 sundays are there and all days are 52 if there are 366 days then other two days can be (SM,MT,TWWT,TF,FS,SS] sample space have 7 elements possible outcomes for 53rd Sunday are SUN MON, SAT SUN i.e, 2 ways. 2 Probability 7


  26. Ques: A leap year is selected at random. Find probability that it has 53 Sundays. Note: leap year has 366 days. Consider an imaginary year of 7 days then it will have exactly 1 Monday,1 Tuesday and... 1 Sunday. an imaginary year of 14 days then it will have exactly 2 Monday,2 Tuesday and... 2 Sunday. If days are multiple of 7 then exact number of all days are there. If there are 364 days then 52 Sundays are there and all days are 52 if there are 366 days then other two days can be [SM,MT,TWWT,TF,FS,SS) Ques 2: 53 Sundays and 53 Mondays.