The current voltage relation of diode is given by I =(e1000v/T -1) mA
Sahay Sir > Question Answers > The current voltage relation of diode is given by I =(e1000v/T -1) mA
Consider an expanding sphere of instantaneous radius R whose total mass remains constant. The expansion is such that the instantaneous density r remains uniform throughout the volume. The rate of fractional change in density is constant. The velocity v of any point on the surface of the expanding sphere is proportional to :
11
Feb
Consider an expanding sphere of instantaneous radius R whose total mass remains constant. The expansion is such that the instantaneous density r remains uniform throughout the volume. The rate of fractional change in density is constant. The velocity v of any point on the surface of the expanding sphere is proportional to : A student [...]
Tags:
A student performs an experiment to determine the Young's modulus of a wire ,
by Searle's method. In a particular reading ,
exactly 2 m long ,
length and charge (i) magnetic flux (ii) rigidity modulus ,
The current voltage relation of diode is given by I =(e1000v/T -1) mA ,
The density of a solid ball is to be determined in an experiment . The diameter of the ball is measured with a screw gauge ,
time ,
where the applied voltage V is in volt and the temperature T is in kelvin. If a student makes an error measurin ± 0.01 V while measuring the current of 5 mA at 300K ,
Write the dimensions of the following in terms of mass ,
There are two Vernier calipers both of which have 1 cm divided into 10 equal divisions on the main scale. The Vernier scale of one of the calipers ( C 1 ) has 10 equal divisions that correspond to 9 main scale divisions. The Vernier scale of the other caliper ( C 2 ) has 10 equal divisions that corresponds to 11 main scale divisions. The readings of the two calipers are shown in the figure. The measured values (in cm) by calipers C 1 and C 2 , respectively, are:
11
Feb
There are two Vernier calipers both of which have 1 cm divided into 10 equal divisions on the main scale. The Vernier scale of one of the calipers ( C 1 ) has 10 equal divisions that correspond to 9 main scale divisions. The Vernier scale of the other caliper ( C 2 ) has [...]
Tags:
A student performs an experiment to determine the Young's modulus of a wire ,
by Searle's method. In a particular reading ,
exactly 2 m long ,
length and charge (i) magnetic flux (ii) rigidity modulus ,
The current voltage relation of diode is given by I =(e1000v/T -1) mA ,
The density of a solid ball is to be determined in an experiment . The diameter of the ball is measured with a screw gauge ,
time ,
where the applied voltage V is in volt and the temperature T is in kelvin. If a student makes an error measurin ± 0.01 V while measuring the current of 5 mA at 300K ,
Write the dimensions of the following in terms of mass ,
The current voltage relation of diode is given by I =(e1000v/T -1) mA, where the applied voltage V is in volt and the temperature T is in kelvin. If a student makes an error measurin ± 0.01 V while measuring the current of 5 mA at 300K, what will be the error in the value of current in mA?Read more on Sarthaks.com – https://www.sarthaks.com/194481/current-voltage-relation-diode-given-1000v-where-applied-voltage-volt-temperature-kelvin
11
Feb
The current voltage relation of diode is given by I =(e1000v/T -1) mA, where the applied voltage V is in volt and the temperature T is in kelvin. If a student makes an error measurin ± 0.01 V while measuring the current of 5 mA at 300K, what will be the error in the value [...]
Tags:
A student performs an experiment to determine the Young's modulus of a wire ,
by Searle's method. In a particular reading ,
exactly 2 m long ,
length and charge (i) magnetic flux (ii) rigidity modulus ,
The current voltage relation of diode is given by I =(e1000v/T -1) mA ,
The density of a solid ball is to be determined in an experiment . The diameter of the ball is measured with a screw gauge ,
time ,
where the applied voltage V is in volt and the temperature T is in kelvin. If a student makes an error measurin ± 0.01 V while measuring the current of 5 mA at 300K ,
Write the dimensions of the following in terms of mass ,