MathsBnotes2009
... It takes a finite time to charge the capacitor. The time taken depends on the size of the resistor and the size of the capacitor. We shall see below by solving the differential equation that it takes approximately a time 5RC seconds to fully charge. The quantity RC is called the time constant of the ...
... It takes a finite time to charge the capacitor. The time taken depends on the size of the resistor and the size of the capacitor. We shall see below by solving the differential equation that it takes approximately a time 5RC seconds to fully charge. The quantity RC is called the time constant of the ...
Delta Function and Optical Catastrophe Models Abstract
... 6. Optical Catastrophe Model for the Free Electron Laser Pulses 7. Optical Catastrophe Model for Optical Solitons References ...
... 6. Optical Catastrophe Model for the Free Electron Laser Pulses 7. Optical Catastrophe Model for Optical Solitons References ...
What does level 2 look like
... What does Level 2 in Maths look like? It is easier to give examples about levels when you are talking about number, however there are also the areas of shape and space and data handling to be taken into account when levelling a child’s true capability in maths. When looking at levels it is good to b ...
... What does Level 2 in Maths look like? It is easier to give examples about levels when you are talking about number, however there are also the areas of shape and space and data handling to be taken into account when levelling a child’s true capability in maths. When looking at levels it is good to b ...
Document
... Problem solving strategy: 1) Draw non-physical Gaussian rectangular prism from center of slab to height z where you want to find Ez. 2) Use Gauss’s law to write equation for Ez in terms of other parameters including arbitrary length and width xo and yo. 3) Solve for Er. In this case solve in 2 place ...
... Problem solving strategy: 1) Draw non-physical Gaussian rectangular prism from center of slab to height z where you want to find Ez. 2) Use Gauss’s law to write equation for Ez in terms of other parameters including arbitrary length and width xo and yo. 3) Solve for Er. In this case solve in 2 place ...
Solving Equations
... times a number. Again, ask yourself “The sum of what?” That is the sum of 3x + 10. The subtracted from is very important here. Since it is stated this way, we are subtracting the first part “from” the second part or 9x – (3x + 10). Why did a put the 3x+10 in parentheses? Because the problem states t ...
... times a number. Again, ask yourself “The sum of what?” That is the sum of 3x + 10. The subtracted from is very important here. Since it is stated this way, we are subtracting the first part “from” the second part or 9x – (3x + 10). Why did a put the 3x+10 in parentheses? Because the problem states t ...
Class X Delhi Math Set-30/1 Section – A [Outside Delhi... Section-A 1. The common difference of AP 1/2q, (1-2q)/2q, (1-4q)/2q...........is (A) -1
... Class X Delhi Math Set-30/1 Section – A [Outside Delhi Reason] Section-A 1. The common difference of AP 1/2q, (1-2q)/2q, (1-4q)/2q...........is (A) -1 ...
... Class X Delhi Math Set-30/1 Section – A [Outside Delhi Reason] Section-A 1. The common difference of AP 1/2q, (1-2q)/2q, (1-4q)/2q...........is (A) -1 ...
Mathematics of radio engineering
The mathematics of radio engineering is the mathematical description by complex analysis of the electromagnetic theory applied to radio. Waves have been studied since ancient times and many different techniques have developed of which the most useful idea is the superposition principle which apply to radio waves. The Huygen's principle, which says that each wavefront creates an infinite number of new wavefronts that can be added, is the base for this analysis.