the compass can be very accurate once the correct steps are taken when using it =) ty
Compass traversing uses a magnetic compass to determine directions, while theodolite traversing involves the use of a theodolite, which is a more precise instrument for measuring horizontal and vertical angles. Theodolite traversing provides more accurate results compared to compass traversing.
The two indentations in the pivot of a plotting compass allow for greater stability and precision when drawing circles. The indentations reduce friction and ensure that the compass point stays in place while drawing curves. This design feature helps to create smooth and accurate circles.
Because if you need to use your compass to figure out which direction is north,then you need to know by how much the direction the compass points is wrong,and which way. That's the magnetic declination.
An electromagnet in a compass would be influenced by Earth's magnetic field, making the compass less accurate. Additionally, the power source needed for the electromagnet would make the compass less reliable in various conditions, such as when the power source is unavailable or if it fails. Traditional compasses use a magnetized needle that aligns with Earth's magnetic field for consistent and reliable navigation.
If there is a magnet beside a compass, the compass needle would be influenced by the magnetic field of the magnet rather than Earth's magnetic field. The needle would point towards the opposite pole of the magnet, so if the magnet's north pole is beside the compass, the compass needle would point towards the south.
To hold a compass properly for accurate navigation, hold it flat in your palm with the direction of travel arrow pointing away from you. Make sure the compass is level and steady, and rotate your body until the needle aligns with the north arrow. This will give you an accurate reading of your direction.
To hold a compass properly for accurate navigation, hold it flat in your hand, away from any metal objects or electronic devices that could interfere with the magnetic needle. Make sure the compass is level and steady, and rotate yourself until the needle aligns with the north arrow on the compass housing. This will give you an accurate reading of your direction.
Iron can make a compass go haywire as it can create magnetic interference. When a compass is near iron or magnetic objects, it can disrupt the Earth's magnetic field that the compass relies on for accurate readings.
You use a compass to draw an accurate circle.
No compass can be accurate with steel structures in close vicinity but a GPS will do the trick
a magnetic compass shows the direction of magnetic north and bearings from ita compass is also a drawing utensil in design and technology that you can use to draw accurate circles. This has been improved by Harriet webster
What property it uses depends on the type of compass. A magnetic compass uses magnetism. Some other compasses (which are more accurate) use the rotation of Earth itself.
To fix a compass near a magnet, move the compass away from the magnet to ensure accurate readings. If that doesn't work, try demagnetizing the compass by rubbing a strong magnet in the opposite direction. Finally, calibrate the compass according to manufacturer instructions to reset its accuracy.
Into the straight edge on the left side of the compass
To use a compass with a lens, hold the compass level and look through the lens to read the compass direction. The lens helps in magnifying the needle and making it easier to see the direction accurately. Ensure the compass is away from any metal objects or magnetic interference to get an accurate reading.
A gyro compass is powered by electricity, typically from the ship's electrical system. The gyro compass relies on the principle of a continuously spinning gyroscope to maintain its orientation and provide accurate heading information.
a magnetic compass shows the direction of magnetic north and bearings from ita compass is also a drawing utensil in design and technology that you can use to draw accurate circles. This has been improved by Harriet webster