[" Magnetic flux in a circular coil of resistance "],[10Omega" changes with time as shown in figure."],[" Symbol "o*" indicates a direction perpendicular "],[" to paper inwards.Match the following: "],[qquad 10^(4)-(1)/(6)[(8)/(10)+(14)/(1/16)+(x)/(1)(x)times x],[10=-x-1)^(2)times([x],[x]]

Magnetic flux in a circular coil of resistance 10Omega changes with time as shown in figure. otimes direction indicates a direction perpendicular to paper inwards. Match the following table.

Magnetic flux in a circular coil of resistance 10Omega changes with time as shown in figure. otimes direction indicates a direction perpendicular to paper inwards. Match the following table.

Magnetic flux in a circular coil of resistance 10 Omega changes with time as shown in figure. Symbol ox indicates a direction perpendicular to paper inwards. Match the following. {:("","Table"-1,"","Table"-2),(1,"At 1 s is induced current is",p,"clockwise"),(2,"At 5s induced current is ",q,"anticlockwise"),(3,"At 9s induced current is ",r,"zero"),(4,"At 15 s induced current is ",s,2A),("","",t,"None"):}

The magnetic flux phi (in weber) linked with a coil of resistance 10 Omega varies with time t (in second) as phi = 8t^2-4t+1 . The current induced in the coil at t = 0.1 sec is

The magnetic flux (in weber) linked with a coil of resistance 10Omega is varying with respect to time t as phi=4t^(2)+2t+1 . Then the current in the coil at time t=1 second is

Some magnetic flux is changed from a coil of resistance 10Omega . As a result an induced current is developed in it, which varies with time as shown in figure. What is the magnitude of change in flux through the coil ?

Some magnetic flux is changed from a coil resistance 10Omega . As a result an induced current developed in it which varies with time as shown figure, The magnitude of changes f in flux through the coil (in webers) is

The magnetic flux (in weber) linked with a coil of resistance 10 Omega is varying with respect to time t phi = 4t^(2) + 2t + 1 . Then the current in the coil at time t = 1 second is

Some magnetic flux is changed from a coil resistance 10Omega . As a result an induced current developed in it. Which varies with time as shown figure, The magnitude of changes f in flux through the coil (in webers) is

Some magnetic flux is changed from a coil resistance 10Omega . As a result an induced current developed in it. Which varies with time as shown figure, The magnitude of changes f in flux through the coil (in webers) is