Part 2
The energy stored in capacitor in steady state is
02
Dec
The energy stored in capacitor in steady state is The energy stored in capacitor in steady state is December 2, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
In the following diagram
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Dec
In the following diagram In the following diagram December 2, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
The charge on capacitor is
02
Dec
The charge on capacitor is The charge on capacitor is December 2, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
The charge on capacitor 4 uf is
02
Dec
The charge on capacitor 4 uf is The charge on capacitor 4 uf is December 2, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
The charge on the capacitor is
02
Dec
The charge on the capacitor is The charge on the capacitor is December 2, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
The resistance of ammeter is R0 1. If r=0, if the value of resistance R increase, the current in ammeter will remain same 2. If r=0, if the value of resistance R decrease, the current in ammeter will remain same 3. If r≠0, if R increase, the current in ammeter will remain same 4. If r≠0, if R increases, the current in ammeter will increase
02
Dec
The resistance of ammeter is R0 1. If r=0, if the value of resistance R increase, the current in ammeter will remain same 2. If r=0, if the value of resistance R decrease, the current in ammeter will remain same 3. If r≠0, if R increase, the current in ammeter will remain same 4. If [...]
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if R increase ,
if R increases ,
if the value of resistance R decrease ,
if the value of resistance R increase ,
the current in ammeter will increase ,
the current in ammeter will remain same 2. If r=0 ,
the current in ammeter will remain same 3. If r≠0 ,
the current in ammeter will remain same 4. If r≠0 ,
The resistance of ammeter is R0 1. If r=0 ,
Incandescent bulbs are designed by keeping in mind that the resistance of their filament increases with the increase in temperature. If at room temperature, 100W,60W and 40W bulbs have filament resistances R100,R60 and R40, respectively, the relation between these resistances is
02
Dec
Incandescent bulbs are designed by keeping in mind that the resistance of their filament increases with the increase in temperature. If at room temperature, 100W,60W and 40W bulbs have filament resistances R100,R60 and R40, respectively, the relation between these resistances is 100W 60W and 40W bulbs have filament resistances R100 Incandescent bulbs are designed by [...]
Three electric bulbs of 200W, 200 W and 400W are shown in figure. The resultant power of the combination is
02
Dec
Three electric bulbs of 200W, 200 W and 400W are shown in figure. The resultant power of the combination is 200 W and 400W are shown in figure. The resultant power of the combination is Three electric bulbs of 200W December 2, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity [...]
The maximum current that flows through a fuse wire before it blows out varies with its radius as
02
Dec
The maximum current that flows through a fuse wire before it blows out varies with its radius as The maximum current that flows through a fuse wire before it blows out varies with its radius as December 2, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
The material of fuse wire should have 1. A high specific resistance and high melting point 2. A low specific resistance and low melting point 3. A high specific resistance and low melting point 4. A low specific resistance and a high melting point
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Dec
The material of fuse wire should have 1. A high specific resistance and high melting point 2. A low specific resistance and low melting point 3. A high specific resistance and low melting point 4. A low specific resistance and a high melting point The power dissipated 6 ohm resistor is December 2, 2020 Category: [...]