You can try the cubic equation:
t(x) = (-x3 + 16x2 - 63x - 36)/18
f(x) = 2x - 2 or 2*(x-1)
x = 3y = 2x - 4 = 2(3) - 4 = 6 - 4y = 2
PS/2
Transistor is known as bipolar junction becoz it has 2 pole. Input is given to the 2 junction and output is taken from to junction
Three 2-input XOR gates and one 3-input NOR gate will do the work. Connect each output of each XOR gate to one input of the 3-input NOR gate and apply the two 3-bit words to the inputs of the XOR gates. If X (X2X1X0) and Y(Y2Y1Y0) are two 3-bit words, X2 and Y2 will connect to one XOR gate, X1 and Y1 to the next XOR gate and X0 and Y0 to the last XOR gate. You could see the result of the operation on a LED connected to the output of the NOR gate. Other implementations are also possible of course. The solution above is absolutely correct, but includes a 3 input gate. If the task is to use only two input gates, then a small change will be needed. Take the outputs from any two XOR gates into a 2 input OR gate. Then take the output of the OR gate and the output of the third XOR gate into a 2 input NOR gate. The operation remains identical to the first solution but adheres to the brief of using gates with 2 inputs. In the real world, there is probably no reason to impose such a limitation on a design so the first solution would normally be the preferred route to take.
There are two input and output ports for Input 1 and 2 and Output 1 and 2.
The relationship between the input and output values is typically defined by a function. In this case, if the input is 6 and the output is 4, the function could be represented as f(x) = x - 2. This function subtracts 2 from the input value to get the output value.
Output. For example, if you input '2 + 2 =' in a calculator, the 4 that appears is the output.
2 input and 1 output
Input: "3+2" --- Output: "5" Input: "song.mp3" ---- Output: the music you listen to
This kind of splitter is used to take an input (from an iPod, computer, etc.) and turn it into 2 output signals. It can be used to take one input and give it to 2 sources to make sound.
Oh, dude, that's like a piece of cake! If the input is 2 and the output is 8, it's probably following a rule where the output is four times the input. So, like, you just multiply the input by 4 to get the output. Easy peasy, right?
The output can be expressed mathematically as ( \text{Output} = 2 \times (\text{Input} + 3) ). This means you first add 3 to the input value and then multiply the result by 2. For example, if the input is 5, the output would be ( 2 \times (5 + 3) = 2 \times 8 = 16 ).
Input: Glucose, 2 ATP, 2 Acetyl CoA, NAD+ Output: 2 NADPH, 4 ATP, 2 Pyruvate
Without knowing the specific function or equation being used, it is impossible to determine the output value if the input value is 4. In mathematics, the output value is dependent on the specific function or equation being evaluated. To find the output value when the input value is 4, you would need to know the function or equation being used and then substitute 4 in place of the input variable to calculate the output value.
It is not. Suppose the function is "add 7".Then an input of 1 gives an output of 1+7 = 8.Double the input to 2 and the output is 2+7 = 9Whereas simply halving the output gives 9/2 = 4.5So the question is based on false premises.
Input devices : 1). Keyboard 2). Mouse 3). light pen Output devices: 1). Plotter 2). Screen