#atom #atomic models #Nuclear#density #part1
@Physics by Mehta Sk
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The reverse saturation current at 300 K
of a p-n junction Ge diode is 5 µA. The
voltage to be applied across the diode to
obtain a forward current of 50 mA, is :
(Boltzmann constant k = 1.38 ×
23 10−
J/K)|
In the motion of a Rocket, physical
quantity which is conserved is|
A solenoid of inductance 50 mH and
resistance 10Ω is connected to a battery
of 6V. The time elapsed before the
current reaches to half of its steady state
value is|
Reverse saturation current|
Reverse saturation current in pn junction diode|
Reverse saturation current in pn junction diode experiment|
of a p-n junction Ge diode is 5 µA. The
voltage to be applied across the diode to
obtain a forward current of 50 mA, is :
(Boltzmann constant k = 1.38 ×
23 10−
J/K)|
In the motion of a Rocket, physical
quantity which is conserved is|
A solenoid of inductance 50 mH and
resistance 10Ω is connected to a battery
of 6V. The time elapsed before the
current reaches to half of its steady state
value is|
Reverse saturation current|
Reverse saturation current in pn junction diode|
Reverse saturation current in pn junction diode experiment|
Reverse saturation current in transistor|
Reverse saturation current in bjt|
Reverse saturation current formula|
Reverse saturation current animation|
Rocket motion|
Rocket motionbsc physics|
Rocket motion physics class 11|
Rocket motion derivation|
Rocket motion graphics|
Rocket motion equation |
29.04.2024