That is 45 minutes. As a fraction it is 45/60 and in simplest form 3/4. So 3/4 of an hour.
3 quarters !
It is: 180/360 degrees = 1/2 a revolution
It is (2n + 1)/2 of a whole revolution, where n is an integer.
if you know the answer put it below if you think it is correct
Say you start at 12 o'clock. If the minute hand goes around the clock once in a complete circle, it turns to 1 o'clock. thus, the hour hand makes it a 30 degree angle.
1 to 10 =9 9/12=3/4
It is (2n + 1)/2 of a whole revolution, where n is an integer.
three quarters
It is: 180/360 degrees = 1/2 a revolution
1/4
The Clock Strikes Twelve was created in 1946.
The Clock Strikes Twelve has 248 pages.
3\4
It is (2n + 1)/2 of a whole revolution, where n is an integer.
The minute hand of any analog clock moves 1 revolution per hour. (60 minutes to an hour) The second hand makes 60 revolutions an hour. (Each tick represents one second, one revolution per minute, equals 60 revolutions an hour.)
From exactly 4 to exactly 7 is one fourth, .25 of a revolution.
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.
A clock's second hand makes one complete revolution each minute. Thus, by definition, it is rotating at one revolution per minute or one RPM. That's its "rotational velocity" and it is the same no matter how big or small the clock might be. The actual velocity that the tip of the second hand might trace out as it revolves around the center of the clock will vary with the length of the second hand. The longer the hand, the faster the tip moves around the circumference.