No. 2.2K ohm is 2200 Ohms.
If the resistors are in series the voltage can not be divided, as it has to pass first through one then the other. The amount of current that flows through a set of resistors in series will be the same at all points and the total resistance in the circuit must be equal to the sum of all the individual resistors added together. In other words the 22k and 12k Ohm resistors are the sames as a single 34k Ohm resistor.
You would be hard pressed to accomplish this in a single stage amplifier. It's much easier with two. For someone that hasn't done a whole lot of design, I would use two op amp stages to get there. the U741 op amp is a very common op amp, and is pretty cheap. For both stages you need to apply a +12 and -12 volt. Here's the pin out for stage #1: Tie 3 to your source 6 is your output. Connect a 100k ohm resistor from 6 to 2 Tie a 1k ohm resistor from 2 to ground. And the second stage: connect pin 6 of the first stage to 3 of the second 6 is your output. connect a 10k ohm resistor from 6 to 2 Tie a 1k ohm resistor from 2 to ground Connect a 10 microFarad capacitor (12 volt minimim rated) from pin 6 to your output load. This will get rid of any DC offset, and the value does not necessarily have to be 10 microFarad, but the bigger, the better (usually). This should have a pretty flat frequency response to ~3kHz. The first stage has a gain of ~100, the second has a gain of ~10. If you find the frequency response is poor, lowering the gain of the first stage and increasing the second will improve the frequency response. Replacing the 100k with a 50k will drop the first stage gain to ~50; replacing the 10k with a 22k will increase the second stage gain to ~20. This should have a frequency response that's fairly flat up to ~10kHz. If you need an actual schematic, email me.
"Sensitivity" is not a word normally applied to resistors. Characteristics of resistors include "resistance", "tolerance", "power rating", and "temperature coefficient". "Inductance" and "capacitance" are also used in describing certain critical performance resistors. A 22 KOhm resistor will require 22 v of voltage to induce a current of 1 ma. This is Ohm's Law: voltage = current times resistance.
If the resistors are in series the voltage can not be divided, as it has to pass first through one then the other. The amount of current that flows through a set of resistors in series will be the same at all points and the total resistance in the circuit must be equal to the sum of all the individual resistors added together. In other words the 22k and 12k Ohm resistors are the sames as a single 34k Ohm resistor.
Hi, I an not an expert, but was interested in a piece of jewelry that had a hallmark of 220 and was being presented as 22k gold. Ran a number of searches on the internet for 220. So far, the only information that I have been able to come up with is that 220 is used to identify commercial bronze which is an alloy of copper. A web search on "alloy 220" will bring up a number of sources on the subject. Good Luck.
that changes every day if not every hour any where in the world.
22k has a higher grade then a 14k so therefor 22k is worth more
The percentage of 22k gold is 91.60%
22k is shorthand for 22000 in Arabic numerals.
22k is a measure of purity, not quantity. So you can get one millionth of an ounce or a million ounces of 22k gold.
22K means 22000
Rs.2910 (22K/1Grm) Rs.23280 (22K/8Grms) (11-December-12)
yes there is a 22k white gold. The reason I say is because I have a bangle which I brought it from a reputed Indian jewellery store and it has 916 embossed on the inner side. 916 means it is 22k
52,200