You would not be able to tell the time accurately, for you will have to estimate degrees across the sky. AND you'll need to know whether you have daylight saving or not; and also the magnetic variation of the magnetic field at your location. And of course which hemisphere you are in. BUT don't forget, this was the basis of telling the time used by the ancients before the compass (and watches) were invented, for they knew the direction in which the sun was highest in the sky.
Start. For this exercise, we'll assume that you're in a location where you can make marks on the ground, And that you have an undamaged compass. You'll also need a small branch with two tips with you can draw a circle on the ground.
First. Determine the direction of true north. Correct the direction pointed by the compass needle for the magnetic variation at your site. This variation will be + or - from the needle indication, and may have a magnitude of several tens of degrees. Mark this direction on the ground with a line. This direction is true north. [For a +ve variation, subtract the number from the compass scale. For a -ve variation, add the number to the compass scale.]
Second. Using the pair of tips of your branch as a pair of compasses [this is the drawing instrument we refer to, and that's its proper name.] draw a circle on the ground, and in this circle, proceed to draw one of those six-pointed propellers. You will have played around doing this with your drawing set at some time. Thus the angle between any adjacent pair of 'propeller tip' is 60o (degrees). It will be helpful to mark the 30o and the 15o positions as well between one of the pairs of adjacent 'propeller tips'.
Now you know that the sun appears to revolve around the earth 360o degrees in 24 hours, so the sun moves across the sky by 15o per hour. [360 divided by 24].
Third. Mark on the ground a line in the direction of the sun and intersecting your 'true north' line above. This your Sun Line. Using our 'propeller diagram' estimate the degrees between your true north line, and your Sun Line. Remember the sun moves 15o each hour. You should be able now to determine the time. This time will be the true time for that longitude.
BUT. In some countries, the accepted time zones span many degrees of longitude; China and Russia come to mind; so local time as given by the time zone may well be out by several hours when compared with the true time! And daylight saving also has its effect. [And my country has a permanent 30 minute offset as well for reasons convenient to us.]
One pin points north and when you want to go in a different direction, you look at your compass and go in that direction.
A compass points north and south however you will still need to take constant bearings on landmarks or celestial bodies to make proper use of a compass. i.e. say for instance you want to go in a directly northerly direction the best thing to do is, identify a landmark that the compass is pointing at and head for it. once there repeat the operation until you have reached your destination.
Steps to follow a compass bearing
Step 1:
Turn the compass housing so that the direction of travel arrow is inline with the bearing you are given. In this example, the bearing given is 220 degrees. Now physically move the whole compass and yourself so that the orienteering arrow is inline with the magnetic needle.
Step 2:
Follow the direction of travel arrow. You should also be given a distance. Pace yourself so that you stop at the correct point.
Step 3:
While you could stop at Step 2, it is not really practical to keep referring to your compass to ensure you are walking in a straight line. What you should do is to pick out a prominent object in the distance. In this example, it will be the crane. Once you have done so, keep the crane always directly facing you, thus you are walking in a straight line and you need not refer to your compass. It is possible to use a series of objects that are inline with your bearing to navigate instead of just relying on a single object. Once you reach an object but still need to travel further to reach your objective, pick another prominent object to take reference from until you reach your objective.
We are unsure. Since the people using the first compass didn't have a compass until that time, they didn't know where they were. After they had been using it a while and figured out where they were, they had moved and no longer knew where they were when they first used it.
by using a ruler and a compass
When you are using a compass you are navigating to a certain point. So it could be navigation.
so they could tell where they are and wont get lost
compass
by looking at the compass the wrong way or maybe using it wrong
The positive effect is that you can succeed in getting to where you're going. A GPS can tell you exactly where you are, and when you couple that information with a map, you can move straight to where you want to be. All a compass can tell you is which way you're facing, which really isn't very useful.
idk i belive the compass
Drake probably used a compass as it was a very important tool at that time and without possibly the help of an astrolabe. It would be impossible for him to tell which direction he was going
The compass indicates the direction of magnetic North, from that you can work out South, East, West and all the other points on the compass.
a compass
Use a compass