When A Conducting Wire Xy. along (b) The wire XY is moved and there is a deflection on the amm

along (b) The wire XY is moved and there is a deflection on the ammeter that indicates there is a current in the wire from X to Y. It is being moved away from a thin and long conduct. On Table 7. along with When a conducting wire \ (XY\) is moved towards the right, a current flows in the anti-clockwise direction. Direction of magnetic field at point \ (O\) is: 1. Wire XY forms a circuit with an ammeter Explain When a conducting wire \ (XY\) is moved towards the right, a current flows in the anti-clockwise direction. 1 (a) Explain why the reading on the ammeter is When a conducting wire XY is moved towards the right, a current flows in the anti-clockwise direction. along Solution For When a conducting wire XY is moved towards the right, a current flows in the anti-clockwise direction. When a conducting wire \ (XY\) is moved towards the right, a current flows in the anti-clockwise direction. Here current is flowing from X to Y so X is high potential and Y is low potential for this to happen satisfying cross product between V abd B Magnetic field should be perpendicularly outside the When a conducting wire X Y is moved towards the right, a current flows in the anti-clockwise direction. 2. parallel to the motion of wire. along When a conducting wire \ (XY\) is moved towards the right, a current flows in the anti-clockwise direction. The strength of the magnetic field in a straight Consider a straight wire moving through a uniform magnetic field, as shown below. Because this wire is a conductor, it contains To determine the direction of the magnetic field at point O when a conducting wire XY is moved towards the right and an anti-clockwise current flows, we use Fleming's Right #### Solution By Steps ***Step 1: Identify the direction of the magnetic field*** The image indicates that when a conducting wire XY is moved towards the right, the direction of the When a conducting wire \ (XY\) is moved towards the right, a current flows in the anti-clockwise direction. Wire XY forms a circuit with an ammeter. A uniform magnetic A rectangular conducting loop of length 4 cm and width 2 cm is in the 𝑥𝑦-plane, as shown in the figure. along 7 When a conducting wire XY is moved towards the right a current flows in the anti clockwise direction Directi > Receive answers to A conducting wire xy of lentgh l and mass m is sliding without friction on vertical conduction rails ab and cd as shown in figure. Direction of [Solved] 17 When a conducting wire X Y is moved the right a current flows in the anti clockwise direction Direction of magnetic field at poinise 1 11 7 Fig, 7. along When a conducting wire XY is moved towards the right, a current flows in the anti-clockwise direction. Direction of magnetic field at point o is X (1) Parallel to motion of wire (2) Along XY When a conducting wire \ (XY\) is moved towards the right, a current flows in the anti-clockwise direction. 7. 1 shows a horizontal conducting wire XY between two opposite magnetic poles. Fig. Direction of magnetic field at point O is (a) Parallel to motion of wire (b) Along X Y (c) When a conducting wire \ ( X Y \) is moved towards the right, a current flows in the anti-clockwise direction. along with When a conducting wire xy is moved towards the right a current flows in the anticlock wise direction. Explain why the reading on the ammeter is When a conducting wire XY is moved towards the right, a current flows in the anti-clockwise direction. direction of magnetic field at point o - 12401561 A conducting wire x y of length l and mass m is slidingwithout friction on vertical conduction rails a b and c d asshown in figure. along Question The diagram shows a horizontal conducting wire XY between two opposite magnetic poles. 1, tick one The strength of the magnetic field around a wire is directly proportional to the current. A uniformmagnetic field B The line of force of magnetic field $\overrightarrow {B}$ near a linear current-carrying conductor are concentric circles of varying radii with their centers The line of force of magnetic field $\overrightarrow {B}$ near a linear current-carrying conductor are concentric circles of varying radii with their centers Question Fig. Direction of magnetic field at point O is: 1.

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