With the help of a labelled circuit diagram wire describe an activity to illustrate the
pattern of the magnetic field lines around a straight current carrying long
conducting wire .
i) Name the rule that is used to find the direction of magnetic field associated
with a current carrying conductor.
ii) Is there a similar magnetic field produced around a thin beam of moving
(a) alpha particles and (b) neutrons? Justify
Answers
1)Rule that is used to find the direction of magnetic filed is Right Hand thumb rule . which states that " If you hold a current carrying conductor in our hand , if thumb indicates the direction of current then four fingers curled direction will be the direction of magnetic field."
Please see the attachment for the diagram.
2)Yes similar magnetic field will be observed around a thin beam of moving
(α) alpha particles as they are positively charged particles.
3) Neutrons will not produce any pattern of magnetic field as they do not have charge.
Answer:
Apparatus: A battery (12 V), a variable resistance for a rheostat), an ammeter (0-5 A), a plug key, and a long straight thick copper wire. Procedure: Fix the cardboard and insert the wire through the centre of cardboard such that it is normal to its plane. Connect the wire with rheostat, ammeter, battery and plug key in series Sprinkle the iron filings uniformly on the cardboard. Keep the variable of the rheostat at a fixed position and note the current through the ammeter. Close the key and gently tap the cardboard. Observe the pattern of the iron filings over the cardboard.
The magnetic field lines are formed in concentric circles around the current carrying conductor and whose centre lies on the wire. These lines do not intersect each other and are equidistant from each other. 1. Right hand thumb rule II. Since alpha particles are positively charged so a magnetic field will be produced. But neutrons are neutral charge so no magnetic field is produced
