Facilities and staff are some transformation processes from inputs into outputs.
It is a circuit that controls some aspect of a system. In a car there may be multiple control circuits such as anti-lock brakes. It takes various inputs, processes the inputs and produces some control outputs, like pulsing the various brakes and assessing the results.
digitals ICs output either a high, +5v DC, or a low 0v. The outputs of digital ICs or on-off-on-on-off....etc. Analog ICs output waves in forms of sine, tri, basically anything but Square waves. Analog ICs usually used to regulate, amplify, filter, existing waves comming into its inputs. The digital ICs output a on-off signal based on what signals you give it. Analog ICs are not absolute, they are used in almost every design. Don't know where these other people got there info from, like they are based on PCB boards, wrong, they are based on silicon wafers they look exactly like digital ICs. Sure these Analog ICs may include some digital circuityry but their output is always analog and they are used in almost EVERY electronic/electrical device
Electronic logic uses just two states, high and low voltage, or "1" and "0". The output of a gate will always be at one value or the other. This is convenient when only a single output is used to drive a signal. In some cases, it is useful to have two or more outputs driving the same signal line. However, if two outputs are linked together, if they have different outputs, there is likely to be damage to the outputs and the level on the line will be un-predictable. A tri-state output has the same high and low levels as standard logic outputs but it has a third state, namely high impedance. A high impedance state means that the output is not transferred to the line so effectively, the output is simply turned off. Another logic gate can now drive the line and the level is entirely predictable. Numerous outputs can now drive a single line as long as only on is turned on at any time.
An oscilloscope with 2 vertical inputs that are multiplexed to the CRT, either by chopping them together on every sweep or alternating between them on every other sweep. Some oscilloscopes also support a differential mode where the 2 inputs are subtracted to produce a single combined signal.
The operational amplifier is a device with two inputs, and one output. One input is called non-inverting, while the other is called inverting. Sometimes, there are two outputs, in which case one is also non-inverting and the other inverting. Within the limits of the design of the operational amplifier and its circuit, the output will assume whatever state is necessary to make the two inputs equal to each other. The output goes in the same direction as the non-inverting input, or in the opposite direction as the inverting input. Note that for the operational amplifer to work correctly, there needs to be some kind of feedback loop, usually from output to inverting input (we call this negative feedback), so that the output can track one of the two inputs in the ratio of the bridge that is setup in the circuit design.
oxygen and carbon dioxide
It is a circuit that controls some aspect of a system. In a car there may be multiple control circuits such as anti-lock brakes. It takes various inputs, processes the inputs and produces some control outputs, like pulsing the various brakes and assessing the results.
It is a circuit that controls some aspect of a system. In a car there may be multiple control circuits such as anti-lock brakes. It takes various inputs, processes the inputs and produces some control outputs, like pulsing the various brakes and assessing the results.
Input touchscreen Memory card Output touchscreen Ear piece
The input process output of a car identifies its' inputs, outputs, and processing. In some cases it has a storage component.
A multiplexer, commonly referred as an input selector, is a circuit with many inputs but only one output: it has some data inputs, control inputs and one output, depending on the control inputs, one input from the data inputs is sent to the output .A demultiplexer is a circuit with one data input, few control inputs and many outputs, it is also known as output selector.
An input can be information or even power to a system. A switch or number. It will take this and after either computation, comparison or consumption do work of some kind. That is output. It can take many forms.
No, they are just a string of unrelated numbers. A function is a mapping between inputs and outputs that meet some simple requirements.
An alarm consists of inputs, outputs, and some access method. An arduino microcontroller could make an excellent backend for a DIY alarm. You'd need sensors for doors, PIRs as motion detectors, glass breakage detector for inputs. To arm/disarm you would require a keylock switch, or a keypad, or a RF fob reader. Outputs should include a loud siren, maybe a strobe light, some flood lights, a phone dialer or an ethernet connection to raise the alert. Finally, any sirens should shut up after 5 minutes - be nice to your neighbours.
The for parts of the computer system are 1,hardware 2,software 3,data 4,users
Yes
Regarding a closed system (in which inputs and outputs are tightly controlled), the total energy you get from the system is always equal to the total energy you put in, even though some of it may be transduced by the system, like light changing to heat, electricity changing to motion, etc.