it is definatly 10
No, it's 11.
For any hour, the small arrow will be between that hour and the next. E.g., for 3h, the small arrow is between 3 and 4, and the large arrow obviously crosses that location.
Only 12->1 and 11->12 are different: in these cases the 'crossing' (or actually just overlap) happens at 12:00. This is the same crossing for the first and last hour of the day, so the total is only 11.
22 times
4:50
Since there are two periods of time, a.m. and p.m. , 24 hours (the time in a day) needs to be split in two. 24 split in two is obviously 12.That is why there is twelve hours on a clock.
Eleven.
Right Angle or 900
22 times
The duration of No Hands on the Clock is 1.27 hours.
At 3 hours 45 minutes there is not an acute angle between the hands of the clock (unless you extend the hands backwards).
4:50
Since there are two periods of time, a.m. and p.m. , 24 hours (the time in a day) needs to be split in two. 24 split in two is obviously 12.That is why there is twelve hours on a clock.
Clock dials are used on analog- style (as opposed to digital) clocks and watches. The other term for a clock dial is a clock face, or clockface. It is the part of the clock where the hour and minute hands (and maybe also seconds hands ) appear. Frequently the clock dial also has numbers, from one to twelve representing the hours, as well as five-minute intervals. Sometimes there are evenly spaced dots, instead of numbers. For an illustration of a clock dials, go to the link below.
The hands of the clock form an obtuse angle during each and every hour.
7.5 degrees.
A clock is modular math. It has a base twelve. We use a base ten. If the clock had ten hours in a half day then the remainder when dividing would always be our answer.
Angle between the hands of a clock=|11M-60H|/2i.e. M-Minutes=35(here)H- Hours=7(here)∴ The angle b/w hands of a clock=|11*35-60*7|/2=17.5°
90 degrees and 270 degrees.
They overlap 11 times.