Answer:
the voltage drop across this same diode will be 760 mV
Explanation:
Given that:
Temperature T = 300°K
current = 100 μA
current = 1 mA
forward voltage = 700 mV = 0.7 V
To objective is to find the voltage drop across this same diode if the bias current is increased to 1mA.
Using the formula:
where;
= 0.7
Suppose n = 1
Then;
760 mV
Thus, the voltage drop across this same diode will be 760 mV
Can you explain a little more of your answer. I just wanna understand it more please and thank you:)
We have that the Table for the Factors is
From the Question we are told to
Organize the following measurements from smallest to largest
- Kilometer,
- Nanometer
- Centimeter
- Meter
- Micrometer.
Note that we Determine the multiplying factor by using Metre which is the SI unit of length as the bases
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Answer:
6538.8 Angstrom
Explanation:
work function, w = 1.9 eV = 1.9 x 1.6 x 10^-19 J = 3.04 x 10^-19 J
Let the longest wavelength is λ.
W = h c / λ
λ = h c / W
λ = (6.626 x 10^-34 x 3 x 10^8) / (3.04 x 10^-19)
λ = 6.5388 x 10^-7 m = 6538.8 Angstrom
Thus, the longest wavelength is 6538.8 Angstrom.
As the bright sun shines upon the water, the water slowly dissapears. This is an example of physical change because here the water is just transformed into water vapour. So only the state and the shape of the substance has changed. Its originality remains absolutely intact. In the second case where the same sunlight gives energy to the surrounding plants to convert water and carbon dioxide into sugar and oxygen gas, it is a chemical change. here new substances are formed and the identity of the original substances are lost.In chemical reactions, the mass of the product will always be the same as the mass of the reactants.