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Test Level 1: Clocks & Calendars - 1 - CAT MCQ


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10 Questions MCQ Test - Test Level 1: Clocks & Calendars - 1

Test Level 1: Clocks & Calendars - 1 for CAT 2024 is part of CAT preparation. The Test Level 1: Clocks & Calendars - 1 questions and answers have been prepared according to the CAT exam syllabus.The Test Level 1: Clocks & Calendars - 1 MCQs are made for CAT 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test Level 1: Clocks & Calendars - 1 below.
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Test Level 1: Clocks & Calendars - 1 - Question 1

In 2003, there are 28 days in February and 365 days in a year. In 2004, there are 29 days in February and 366 days in the year. If March 11, 2003 is a Tuesday, then March 11, 2004 would be which of the following days?

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 1

2004 is a leap year (Since the month of February in this year has 29 days).
Now, March 11, 2003 is a Tuesday. We have to find the day of the week on March 11, 2004.
The number of days between the two dates is 366 days.
The number of odd days is 2.
The day of the week on March 11, 2004 = Tuesday + 2 = Thursday

Test Level 1: Clocks & Calendars - 1 - Question 2

How much does a watch gain or lose per day if its hands coincide every 62 minutes?  

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 2

Apply direct formula for gain or loss, we get where hands coincide after x minutes= 80.23
Since this value is positive, so there will be a gain.

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Test Level 1: Clocks & Calendars - 1 - Question 3

If today is Wednesday, then what will be the day after 94 days?  

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 3

Since today is Wednesday, therefore after 91st day, it will be Wednesday, as 91 is a multiple of 7.
Hence, the day after 94 days will be a Saturday.

Test Level 1: Clocks & Calendars - 1 - Question 4

If the 1st of March of a year is a Wednesday, then which of the following months of the same year will start with the same day?

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 4

Months: Mar, Apr,  May,  June,  July,  Aug,  Sept, Oct
Odd days: 3,  2, 3,  2, 3, 3, 2, 3 
Total 21 odd days 
21/7 = 0
So, November will start with the same day.

Test Level 1: Clocks & Calendars - 1 - Question 5

First day of January is Wednesday. If in a government office, second and third Saturdays and all Sundays are holidays, then the number of working days in January is  

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 5

Total holidays are 6 and the number of days in January is 31. Number of working days = 31 - 6 = 25. Thus, this option is correct.

Test Level 1: Clocks & Calendars - 1 - Question 6

If 09/12/2001 happens to be Sunday, then 09/12/1971 was a  

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 6

In 30 years from 1971 to 2001, number of odd days = 30 + 8 (from leap years) = 38 odd days
It gives 3 odd days after being divided by 7.
So, December 9, 1971 is Thursday (three days before Sunday).

Test Level 1: Clocks & Calendars - 1 - Question 7

If the second Sunday in October 2002 fell on the 13th of the month, then the first Sunday in November 2003 would fall on which date?

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 7

Given: 13th October, 2002 was Sunday.
So, 13th October, 2003 was Monday.
12th October, 2003 was Sunday.
So, 19th October, 26th October and 2nd November were Sundays.
Hence, the first Sunday in November 2003 fell on 2nd.

Test Level 1: Clocks & Calendars - 1 - Question 8

If January 1, 1990 was Monday, then what day of the week will it be on January 1, 1991?

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 8

1990 was not a leap year and had only 1 odd day.
Therefore, January 1, 1991 will be Tuesday.

Test Level 1: Clocks & Calendars - 1 - Question 9

On 2nd July 1985, it was Wednesday. The day of the week on 2nd July, 1984 was

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 9

There are 365 days between 2nd July, 1984 and 2nd July, 1985.
In 365 days, there are 52 weeks and 1 odd day.
If 2nd July, 1985 was a Wednesday, then
2nd July, 1984 was the day that comes before Wednesday which means Tuesday.

Test Level 1: Clocks & Calendars - 1 - Question 10

My flight took off at 2 am from a place at 18N 10E and landed 10 hours later at a place with coordinates 36N 70W. What is the local time when my plane landed?

Detailed Solution for Test Level 1: Clocks & Calendars - 1 - Question 10

Local time varies only with longitudes.
The flight travelled from 10E to 70W longitudes i.e. 80° longitudes.
Time change because of longitude change = 80 × 4 = 320 minutes = 5 hours and 20 minutes
Time at 18N 10E after 10 hour journey = 2 am + 10 hours = 12 pm
Because the flight travelled towards West from East, the local time at 36N 70W
= 12 pm - 5 hrs 20 m = 6:40 am

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