
You have landed on a planet and wish to determine the magnetic field of the planet...
Problem 5 Compass S A horizontal compass is placed 0.100 em due South from a straight vertical wire carrying a 9.50 A current in the direction shown in the figure above. The horizontal component of the earth's magnetic field at this location is Be 450x10 T and points North a) In which direction does the compass needle point? Give the angle between Easl and the compass needle in degrees Suhmit Anwr Tries 0/6 b) What is the magnitude of the...
A current of 18 A runs vertically up through a wire that passes through a table. A compass is placed 13 cm due north of where the wire passes through the table. The magnetic field of the earth at this location is 2.6 × 10-5 T due north. Determine the angle between the compass needle and due north. I know that the answer is 46.8° west of due north , but how did they get that? Please show solution steps Thank...
nt FULL SCREEN PRINTER VERSION NEXT Cnapter 41, ProDiem b2 A smail compass is held horizontally, the center of its needle a distance of 0.240 m directly north of a long wire that is perpendicular to the earth's surface. When there is no current in the wire, the compass needle points due north, which is the direction of the horizontal component of the earth's magnetic field at that location. This component is paraliel to the earth's surface. When the current...
A long current-carrying wire, oriented North-South, lies on a table (it is connected to batteries which are not shown). A compass lies on top of the wire, with the compass needle about 3 mm above the wire. With the current running, the compass deflects 10 degrees to the West. At this location, the horizontal component of the Earth's magnetic field is about 2e-5 tesla. What is the magnitude of the magnetic field at location A, on the table top, a...
A horizontal compass is placed 21 cm due south from a straight vertical wire carrying a 35 A current downward. In what direction does the compass needle point at this location? Assume the horizontal component of the Earth's field at this point is 0.45 ✕ 10-4 T and the magnetic declination is 0°. Calculate degree and specify direction.
A long wire carrying I=0.8A of constant current oriented East-to-West (and the current is running eastwards) is placed distance d=1cm over the top of a compass needle. Assuming the Earth magnetic field to be BEarth= 23μT what is the absolute value of the angular deviation θ of the compass needle from the North-to-South direction?
1. A proton is moving at an angle of 80° to a uniform magnetic field. What is the relationship between the direction of the force on the proton and the direction of the magnetic field? * (1 Point) parallel to the magnetic field at an angle of 10° to the magnetic field at an angle of 80° to the magnetic field at an angle of 180° to the magnetic field perpendicular to the magnetic field 2. An electron is moving...
1- A horizontal compass is placed 15 cmcm due south from a straight vertical wire carrying a 47-AA current downward. Assume the horizontal component of the Earth's field at this point is 0.45×10−4×10−4 TT and the magnetic declination is 0 Determine the angle of the direction of the compass needle. Express your answer using two significant figures.
elaborate on this quote. Does this mean that if I place a
compass above the wire, the NORTH end of the compass will point
towards the wire? like this?
If so, can we imagine the wire as being the virtual magnet,
where the "top" of the wire simulates a north pole and the "bottom"
of the wire simulates a south pole? Why would this be? Is it
because the field lines go from the north end of the magnet to...