Describe the mathematical relationship between the distance of an isolated pole and a bar magnet.

Distance from Bar Magnet (cm) 10 cm 9 cm 8 cm 7 cm 6 cm 5...

Distance from Bar Magnet (cm) 10 cm 9 cm 8 cm 7 cm 6 cm 5 cm 4 cm 3 cm 2 cm 1 cm Magnetic Field Strength (gauss) 0 0 1 3 4 8 13 22 44. 82 what can be said about the mathematical relationship between the field strength B and distance d based on this fit?

For a bar magnet, the magnetic field lines point A) always towards the magnet. B) towards...

For a bar magnet, the magnetic field lines point A) always towards the magnet. B) towards the South pole. C) towards the North pole. D) always away from the magnet.

A bar magnet with its north pole pointing upward is falling toward the center of a...

A bar magnet with its north pole pointing upward is falling toward the center of a horizontal conducting ring. As view from above, what is the direction of the induced current in the ring? Counterclockwise No current is induced Clockwise Vertical

A bar magnet is dropped vertically with its upper end, a North pole, through a metal...

A bar magnet is dropped vertically with its upper end, a North pole, through a metal ring. If the ring is viewed from above the rings center the induced current in the ring A) will flow clockwise and be increasing. B) will flow clockwise and be decreasing. C) will flow counter-clockwise and be increasing. D) will flow counter-clockwise and be decreasing. E) The induced current will be zero.

Two identical magnets are dropped from the same height. Magnet 01 has a rubber bar next...

Two identical magnets are dropped from the same height. Magnet 01 has a rubber bar next to it as it falls, magnet 02 has a copper bar next to it as it falls. Rubber or copper are not attracted to magnets. Which of the two magnets falls faster to the ground? a) The two fall at the same time b) The magnet with the S pole pointing to the ground falls first c) Magnet 01 d) The magnet with the...

Describe what happens when a bar magnet is pushed into or pulled out of a solenoid...

Describe what happens when a bar magnet is pushed into or pulled out of a solenoid connected to an ammeter.

The water in the beaker acts as a thick lens. There is a mathematical relationship between...

The water in the beaker acts as a thick lens. There is a mathematical relationship between the thickness of a lens & the place where parallel rays come into focus behind the lens (the focal point of the lens). From your diameter and focal length data table – discuss any pattern in your data that might hint at this relationship for a round lens: Distance 1 (diameter of beaker) cm Distance 2 (distance to focus) cm Distance 1/Distance 2 Beaker...

A coil of wire is connected to a voltmeter. A bar magnet is quickly inserted into...

A coil of wire is connected to a voltmeter. A bar magnet is quickly inserted into the coil of wire and then quickly removed. Describe how the voltmeter reading changes before the magnet is inserted, while it is being inserted, while it is being removed and after it has been removed.

Mathematical Relationship between shear force and bending moment?

Mathematical Relationship between shear force and bending moment?

Is there a mathematical relationship between absorbance and concentration of the solution? If so, indicate the...

Is there a mathematical relationship between absorbance and concentration of the solution? If so, indicate the relationship.