15 degrees (a 15 degree angle).
The minute hand points directly to the 6 (marking an exact half hour); the hour hand is exactly half way between the 6 and 7, marking 6.5 hours exactly.
Each full hour (usually marked on clock by a number) represents 30 degrees (1/12 of 360); each half hour represents 1/2 of that or 15 degrees.
60 degrees
All of them (from zero degrees to 360 degrees), as the hands spin around.
5.75 degrees.
straight angle
Obtuse
90
60 degrees
All of them (from zero degrees to 360 degrees), as the hands spin around.
5.75 degrees.
Obtuse
straight angle
0' or 360'
One minute is six degrees. Multiply however many minutes the hands are apart by six.
At 6:30, the hour hand is at 195 degrees, the minute hand is at 180 degrees, the second hand would be at 0 degrees. The hour and minute hands would also be 15 degrees apart.
It is 15 degrees.
At 6.30 minute hand will be at 6 and hour hand will be at center of 6 and 7. Thus angle will be 360/(12*2) = 150
Lets start by thinking of a clock as a circle, with directly up being 0 degrees. At 12:00, both hands are at 0 pointing straight up. Every 60 minutes, the minute hand will make a complete revolution, so at any given time its angle is: minute_deg = minute * 360 / 60 = minute * 6; The hour hand will make a complete revolution every hour, so its formula is: hour_deg = hour * 360 / 12 = hour * 30; A function to find the angle would be: int angleBetweenHands(int hour, int minute) { if(hour > 12) // In case of 24 hour clock hour -= 12; int angle = hour * 30 - minute * 6; if(angle > 180) angle = 360 - angle; return(angle); }