There are two angles between 5 and 8 on a clock face. The smaller (right) angle is 90 degrees. The larger (reflex) angle is 270 degrees.
Cut a cake into 5 equal pieces. Take out 2 pieces. The remainder looks like three fifths. On an analogue clock face, it is the bigger angle between 12 o'clock and 36 minutes. 3/5
5
one
This is going to be a difficult problem with a digital clock. It's not so bad with an old-fashioned clock, one with actual hands. Since you did not specify AM or PM, we'll assume that you have a 12-hour clock, not a military clock. The angle is (5/12) of a full circle = (5/12) x (360 degrees) = 150 degrees That's on the right side. On the left side, it's 210 degrees.
120 degrees
150
90 degrees its just like the angle between 6 and 9 on a clock basically for every number its 30 degrees
The number of memory between 12 and 1 is 5. There are 60 lines in a clock: 5/60. Since the whole angle of the clock is 360, you multiply 360 and 5/60 together and get the answer of 30 degrees.
Cut a cake into 5 equal pieces. Take out 2 pieces. The remainder looks like three fifths. On an analogue clock face, it is the bigger angle between 12 o'clock and 36 minutes. 3/5
5
Infinit
925
15 + 5 x 30 ie 165o
one
At 5 o'clock, the minute hand points at the 12, while the hour hand points at the 5. Each hour mark on a clock represents 30 degrees (360 degrees divided by 12 hours). The angle between the hour and minute hands is 150 degrees (5 hours × 30 degrees). The reflex angle, which is the angle greater than 180 degrees, is 360 degrees minus 150 degrees, resulting in a reflex angle of 210 degrees.
The hands of a clock at 5 to 12
The hands of a clock at 5 o'clock