All Basic Geometry Resources
Example Questions
Example Question #1 : How To Find The Angle Of Clock Hands
It is 4 o’clock. What is the measure of the angle formed between the hour hand and the minute hand?
At four o’clock the minute hand is on the 12 and the hour hand is on the 4. The angle formed is 4/12 of the total number of degrees in a circle, 360.
4/12 * 360 = 120 degrees
Example Question #1 : How To Find The Angle Of Clock Hands
The hour hand on a clockface points to the , and the minute hand points to the . How many degrees is the angle between the minute and hour hands?
There are degrees in one complete revolution of a circle. There are minutes in one hour.
Create a fraction out of these two quantities to use later as a conversion rate:
Between the and there are minutes, so multiply this by the conversion rate to solve for the number of degrees:
Example Question #1 : How To Find The Angle Of Clock Hands
What is the measure of the smaller angle formed by the hands of an analog watch if the hour hand is on the 10 and the minute hand is on the 2?
90°
45°
30°
120°
56°
120°
A analog clock is divided up into 12 sectors, based on the numbers 1–12. One sector represents 30 degrees (360/12 = 30). If the hour hand is directly on the 10, and the minute hand is on the 2, that means there are 4 sectors of 30 degrees between then, thus they are 120 degrees apart (30 * 4 = 120).
Example Question #2 : How To Find The Angle Of Clock Hands
Thomas is trying to determine the angle between the hands of his clock. Right now it reads pm, what angle do the clock hands make?
You can think of a clock in two ways:
1. Out of 12 hours, or
2. In terms of a circle with
If you try to solve it in terms of #1:
Goal: Find the angle measurement between the hour and the minute hands. We only want to find the degrees between the hours of 9 and 12
So we are looking at 3 hours out of the 12 total hours on a clock.
As a fraction:
So that means that the clock hands are making an angle that is 1/4 of the clock (which is a circle). So knowing that a circle has in it,
1/4 of a circle is .
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2. If you think of the clock as a circle first you can determine the angle that the clock hands create very quickly.
Since there are in a circle, every hour that passes is a movement of . So knowing that, the clock will be moving 3 hours:
Example Question #2 : How To Find The Angle Of Clock Hands
What is the measure of the larger angle formed by the hands of a clock at ?
Like any circle, a clock contains a total of . Because the clock face is divided into equal parts, we can find the number of degrees between each number by doing . At 5:00 the hour hand will be at 5 and the minute hand will be at 12. Using what we just figured out, we can see that there is an angle of between the two hands. We are looking for the larger angle, however, so we must now do .
Example Question #2 : How To Find The Angle Of Clock Hands
What is the measure, in degrees, of the acute angle formed by the hands of a 12-hour clock that reads exactly 3:10?
65°
55°
72°
60°
35°
35°
The entire clock measures 360°. As the clock is divided into 12 sections, the distance between each number is equivalent to 30° (360/12). The distance between the 2 and the 3 on the clock is 30°. One has to account, however, for the 10 minutes that have passed. 10 minutes is 1/6 of an hour so the hour hand has also moved 1/6 of the distance between the 3 and the 4, which adds 5° (1/6 of 30°). The total measure of the angle, therefore, is 35°.
Example Question #1 : How To Find The Angle Of Clock Hands
Find the angle in degrees between clock hands at 3:30.
On first glance, this problem may seem simple in that the angle between the 3 and 6 on a clock is one quarter of a circle or 90 degrees. However, you must take into account that in the half hour that has passed from 3:00 to 3:30, the hour hand has moved half the distance between the 3 and 4. To find the degrees, simply divide the total number of degrees in a circle by 12 to find the degrees between each consecutive number, and then multiply that number by 2.5 because you have half the distance to the 4, and the the full distance to the 5 and the full distance to the 6. Thus,
Example Question #1 : How To Find The Angle Of Clock Hands
A clock shows that the time is 9:00am. What is the angle between the minute and the hour hands?
By dividing the clock into pieces, we can determine that the angle between the two hands is .
Within a clock, just like any circle, there are 360 total degrees.
Within an clock, there are 60 total minutes.
Each minute that passes, the minute hand advances 6 degrees. The hour hand advances .5 degrees. But since it is 9am on the dot, we will just be using the minute hand to count the degrees.
Since the minute hand is covering a total of 15 minutes in between it and the hour hand, we can do the math:
=
Example Question #11 : Clock Math
Find the angle in degrees of the hands of a clock at 4:00.
To solve this question recall that a clock is a cicle and a circle is comprised of 360 degress.
To find how many degrees lie between each of the twelve numbers on the clock, divide 360 by 12.
.
From here, we will multiply 30 degrees by 4 to find the degree angle of for the hands of the clock at 4:00.
Another approach is to simply divide 4 by 12 to determine what percentage of the circle the hands will cover, and then multiply that number by 360, which is the full degrees in a circle. Thus,
.
Example Question #392 : Basic Geometry
A clock has the big hand at 12 o'clock and the little hand at 3 o'clock. What would be the angle for the configuration of these two hands?
With one hand at o'clock and the other at o'clock, the configuration encompases of the complete of a full circle.
Therefore, we can determine the angle of the configuration as such: