answersLogoWhite

0


Verified answer

22 times a day if you only count the minute and hour hands overlapping. The approximate times are listed below. (For the precise times, see the related question.)

2 times a day if you only count when all three hands overlap. This occurs at midnight and noon.

am12:00

1:05

2:11

3:16

4:22

5:27

6:33

7:38

8:44

9:49

10:55

pm12:00

1:05

2:11

3:16

4:22

5:27

6:33

7:38

8:44

9:49

10:55

A really simple way to see this is to imagine that the two hands are racing each other around a track. Every time the minute hand 'laps' the hour hand, we have the overlaps we want.

So, we can say that the number of laps completed by the minute hand every T hours, Lm = T laps. Since there are 12hours in a full rotation of the hour hand, that hand only rotates Lh = T/12 laps.

In order for the first 'lapping' to occur, the minute hand must do one more lap than the hour hand: Lm = Lh +1, so we get T = T/12 + 1 and that tells us that the first overlap happens after T = (12/11) hours. Similarly, the 2nd lapping will occur when Lm = Lh + 2.

In general, the 'Nth' lapping will occur when Lm = Lh +N, which means every N*(12/11) hours (for N = 0,1,2,3...). In other words, it will happen approximately every 1hr5mins27secs, starting at 00:00. In 24hours, this occurs a total of 24/(12/11) = 22 times.

======================================================================================

So we are looking at two rotating hands. Ultimately, its just the angles we care about. Let θH represent the angle of the hours hand and θM represent the angle of the minutes hand. You could also introduce the seconds hand but that makes the problem more complicated. For now, lets assume the question only cares about the minute and hour hands. Initially we might think we are looking for:

θH=θM

But this doesn't take into account that if one hand has "gone around" a few times, its angle will be different from a hand in the same position that hasn't "gone around" the same number of times. So we have to modify our goal. Instead we let the angles differ by an integer multiple of 2π (360°). Let us call this arbitrary integer z. Now our condition is:

θM-θH=2πz

You could subtract the two angles in either order but the reason I chose to subtract hours from minutes is because it will result in positive integers which is just simpler. The minute hand goes around more times, thus its angle is bigger, thus this order of subtraction is positive. Now we have to find out how these angles depend upon the time. Let us call our time t and measure it in hours. I omit units for simplicity. The hour hand goes around a full rotation (2π) once every 12 hours. So:

θH=(2π/12) t

For those more versed in mathematics, 2π/12 is the "angular frequency" for the hour hand (usually denoted by ω).

Similarly the minute hand goes around a full rotation (2π) once every hour. So:

θM=2π t

Plugging back in:

θM-θH=2πz

2π t - (2π/12) t = 2πz

t - t/12 = z

(11/12) t = z

Now we are ready to solve. The two hands overlap at every solution of this equation, so we want to know the number of solutions of this equation. But remember, we want to know how many times this happens in a single day, so t cant be bigger than 24 (remember we are measuring t in hours), and technically no smaller than 0 (assuming we start our clock at 0 hours). Since t and z are proportional, each solution for z corresponds to exactly one solution for t, and accordingly exactly one solution of the equation.

Also, remember than z must be an integer. So if we wanted all the times we would just let z go from 0 (when t=0) up and solve for t and stop as soon as we passed t=24. Then of course we'd have to convert that into hour and minute format. However, we only care about the number of times this happens. So we can notice that as t increases, z is just keeping track of how many times the two hands have overlapped. When z=0 we get the first time, when z=1 we get the second time, and so on. Since t and z are directly proportional, t increases with z, thus z represents the number of times the hands have overlapped up until time t minus 1 (and starting from t=0). Since we don't want t to go past 24, we plug in 24 and solve for z which will tell us how many times this event has occurred from t=0 to t=24 (one day).

(11/12)*24 = z

22 = z

So this happens 22 times in a day. Technically this has 23 solutions (0 through 22) but the last one is for t=24 which has begun the next day. If we don't count that solution we are left with 22.■

If we want the second hand to overlap as well, we have to go a bit further. First we note that the second hand makes a full rotation once every minute, thus 60 times an hour. From this we have:

θS=(2π*60) t

We want the second and hour hands to overlap AND the minute and second hands to overlap. Those conditions can be summarized as follows, where x and y are positive integers:

θS-θM=2πx

θS-θH=2πy

Plugging in our functions of t for the θ's and solving for t we are left with:

t=x/59

t=12y/719

We want our integers x and y to produce the same time (making all hands overlap at that time). So we want to set the two equations equal. Simplifying, we get;

x=708y/719

708 and 719 are coprime (719 is prime and 708 is decomposed into 2^2*3*59). In fact 708y and 719 are coprime except for when y is an integer multiple of 719. Thus 708y/719 can only be reduced when y=719k for some integer k. In this case we have:

x=708k

The first solution is when k=0. Then x=0 and t=0 corresponding to midnight. The next solution is k=1. Then x=708 and t=12 corresponding to noon. The next solution is k=2 but this corresponds to t=24 which is (midnight for) the next day and due to the direct proportionality of t and k, every k from here on up will produce t's higher than 24.

In summary, all three hands only overlap twice a day: at noon and midnight. ■

All of this assumes that the hands sweep continuously. So the math is more(?) complicated for those with fake Rolex's (or any ticking handed clocks).

User Avatar

Wiki User

βˆ™ 14y ago
This answer is:
User Avatar
User Avatar

Anonymous

Lvl 1
βˆ™ 4y ago
11 overlaps starting 0:00 to 11:55, then another 11 overlaps starting 12:00 to 23:55. Next overlap is a new day.
User Avatar

Kherington Palmer

Lvl 1
βˆ™ 3y ago
11
More answers
User Avatar

Sophia Claire

Lvl 3
βˆ™ 3y ago

You cannot create this article. You may need to log in or create an account and be autoconfirmed to start this page. Alternatively, you can use the Article Wizard, or add a request for it.

Search for "How many times do a clock's hands overlap in a day?" in existing articles.

Look for pages within Wikipedia that link to this title.

Other reasons this message may be displayed:

If a page was recently created here, it may not be visible yet because of a delay in updating the database; wait a few minutes or try the purge function.

Titles on Wikipedia are case sensitive except for the first character; please check alternative capitalizations and consider adding a redirect here to the correct title.

If the page has been deleted, check the deletion log, and see Why was the page I created deleted?

This answer is:
User Avatar
User Avatar

Sophia Claire

Lvl 1
βˆ™ 3y ago
sana makatulong

User Avatar

Andrew Sharp

Lvl 2
βˆ™ 3y ago

One problem is that the stroke of midnight and noon are neither a.m. nor p.m. "12 noon" and "12 midnight" are both redundant. It's clear what noon and midnight mean without "12." Each day begins and ends whatever tiny fraction after the exact stroke of midnight of a second you prefer.

This answer is:
User Avatar

User Avatar

milton florest

Lvl 2
βˆ™ 4y ago

They are always overlapped!

But the answer they seem to be looking for is 22

This answer is:
User Avatar
User Avatar

mrea

Lvl 1
βˆ™ 3y ago
how are they always overlaped
User Avatar

Chloe Wong

Lvl 1
βˆ™ 3y ago
i don`t know
User Avatar

mrea

Lvl 1
βˆ™ 3y ago
milton florestΒ can u explane itΒ 

User Avatar

Lewis Banks

Lvl 2
βˆ™ 3y ago

If you start the day one second after Midnight, the answer is 22. And no the clock "Hands" are not always overlapping.

This answer is:
User Avatar

User Avatar

Paul Mak

Lvl 2
βˆ™ 4y ago

21 - The second time the hands hit 12 o'clock the day has lapsed.

This answer is:
User Avatar
User Avatar

Chris Rad

Lvl 1
βˆ™ 3y ago
Someone needs to learn how to count.

It's actually 23 times per day, since 12 am is the start of the new day, and you're forgetting 11:50pm which is the 23rd time.

This answer is:
User Avatar

you can say 22 times but it is always overlapped

This answer is:
User Avatar

User Avatar

Kashif Nazeer

Lvl 2
βˆ™ 3y ago

two times a clock reach that point

This answer is:
User Avatar

A clock overlaps 22 times a day

This answer is:
User Avatar
Still have questions?
magnify glass
imp
Related questions

How many times do the hands of a clock overlap in 12 hours?

They overlap 11 times.


How many times do a clock's three hands overlap in a day?

All 3 hands overlap 24 times a day.


How many times do a clock's hands overlap?

24 times


How many times a day do clock hands overlap?

22 times.


How many times do a clock's hands overlap in 1 day?

22 times


How many times do a clock's hands overlap in a day interview question?

22 times


How many times does the hands of the clock overlap in a day?

Overlap happens once 12/11 hour. So 24÷12/11=22 Then overlap occurs 22 or 21 times a day.


How many times do a clock's hands overlap and opposite to each other in a day?

Twenty two each.


How many times does the minute hand of a clock overlap with the hour hand from 10am to 12am?

23 times in all.Note that from 11:00 to 11:59 (am or pm) the hands can never overlap. Thus from 10am to 11:59am, the hands will overlap just once at around 10:54am. The hands will overlap again at exactly 12:00pm (noon). And from 12:01pm to 12:am (midnight) the hands will overlap another 11 times.The following times are the approximate overlapping times.10:54am12:00pm (noon)1:06pm2:11pm3:16pm4:21pm5:27pm6:32pm7:38pm8:43pm9:49pm10:54pm12:00am (midnight).


How many hands of a clock?

Clocks have 0, 2 or 3 hands: 0 (digital clocks), 2 (hour and minute), 3 (hour, minute and second).


How many times do not a clock's hands overlap in a day?

Infinitely many. Unless you consider the Planck time as the smallest, indivisible unit of time so that time is not a continuous variable.


How many times do you click the clocks?

None. I don't click the clock. The clock clicks as the hands go around the dial or the old fashioned numbered clock flips the numbers.