6 degrees, because 360 deg in a circle and it moves 1/60 at a time. 360/60 is 6 degrees.
The minute hand of a clock completes a full rotation of 360 degrees in 60 minutes. Therefore, in 35 minutes, the minute hand would have turned (35/60) * 360 degrees, which is 210 degrees.
Every minute on a round clock is six degrees. Putting the hands on 12 and 3 (15 minutes) would be a 90 degree angle.
Assuming the hour hand moves steadily for the entirety of the hour, the angle formed by the hour and minute hand would be 55 degrees.
Measuring from the minute hand (at 12) and going clockwise, it would be 210 degrees.
Every minute on a clock equals 6 degrees. 145 degrees would be pretty close to 5:01
The minute hand of a clock completes a full rotation of 360 degrees in 60 minutes. Therefore, in 35 minutes, the minute hand would have turned (35/60) * 360 degrees, which is 210 degrees.
12 minutes is 1/5th of an hour. The minute hand sweeps 360 degrees - a full circle - in one hour. So the angle formed by the start and stop of a 12-minute sweep of the minute hand would be 1/5th of 360 degrees or 72 degrees.
Every minute on a round clock is six degrees. Putting the hands on 12 and 3 (15 minutes) would be a 90 degree angle.
Imagine the head bolt is the dial on a clock. The distance between minute marks is 6 degrees. So to turn it 73 degrees you would start at 12 and turn it to 12 1/2 minutes.
Assuming that you are referring to a clock face, the long hand represents the minute's hand. To calculate how many minutes the long hand will take to move from 1 to 8, we need to determine the angle between these two positions on the clock face. A clock face is divided into 12 hours, and each hour represents 30 degrees (360 degrees divided by 12 hours). Thus, each minute represents 1/60th of an hour or 0.5 degrees (30 degrees divided by 60 minutes). Therefore, the angle between two consecutive minute marks on the clock face is 6 degrees (0.5 degrees multiplied by 12). To move from 1 to 8, the long hand must pass over 7 minute marks (1, 2, 3, 4, 5, 6, and 7), which represents an angle of 42 degrees (7 multiplied by 6). Since the long hand moves at a constant rate, we can use the formula: time = (angle between the two positions) / (rate of movement) The rate of movement for the long hand is 360 degrees per 60 minutes, or 6 degrees per minute. Thus, the time taken for the long hand to move from 1 to 8 would be: time = 42 degrees / 6 degrees per minute = 7 minutes Therefore, the long hand would take 7 minutes to move from 1 to 8 on a clock face.
Imagine the head bolt is the dial on a clock. The distance between minute marks is 6 degrees. So to turn it 73 degrees you would start at 12 and turn it to 12 1/2 minutes.
61
Every minute on a clock is 6 degrees, making every five minutes where the numbers are 30 degrees. In theory, hands on the 1 and 6 would would show an angle of 150 degrees. In actuality, the hour hand moves halfway between the 1 and 2 by 1:30 making the angle 135 degrees.
The hour hand would be at 195 degrees and the minute hand at 180 degrees.
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.
1 hour = 60 minutes therefore: It would have moved (1/60) x 60 minutes = 1 degree
Assuming the hour hand moves steadily for the entirety of the hour, the angle formed by the hour and minute hand would be 55 degrees.