visual
The bandwidth of a signal is related to how fast you can transmit information over that signal. Signals with large (or broad) bandwidth can transmit more information (data) in a given amount of time, so this results in faster download times.
Solid modeling is advantageous because it is unambiguous, gives tremendous information and is best suitable for calculating properties. The disadvantage is that it requires large memory and inhibits fast manipulation.
It depends on whether the data entry is predominantly alphanumeric or numeric. Alphanumeric entry is measured in WPM (words-per-minute) and usually requires a minimum of 60 to 80 WPM however a top-flight secretary can easily exceed 100 WPM. Numeric entry is measured in KPH (keystrokes-per-hour) and usually requires a minimum of around 8,000 to 9,000 KPH. Hardcore data entry requires a minimum of 10,000 KPH while a top-flight number cruncher can easily exceed 12,000 KPH.
In the course of sampling a signal to graph the parts of a repeating event on the display, the sampling must be done faster than the event you want to graph. If the sampling is done slower than the event then you will be displaying several parts of the event in a single dot on the display, highly inaccurate. The signal sampling must be done fast enough to display the event in enough detail. The higher you set the scope frequency, the wider the event appears on the display, possibly losing the sides of the event if you go too high.
A: ALL computer have an I/O and have interrupt signals these signal are there to service whatever is requesting a service. A printer request for instance or a USB device the processor will wait until the service is completed unless it is released. lesson to learn the I/O is the pace of speed not the speed of the CPU which usually loaf waiting for interrupts to be finished. Fast I/O buss means a fast computer.
It varies depending on your settings, obstructions to the signal and what you personally define as working. If transmitting at full power, and with no obstructions, most devices should be able to connect (whether or not they have fast data transfer is another matter) to the network. In an average house, though, you might have difficulty connecting 15 metres away from your access point.
We're burning daylight, boys. The daylight is fading fast.
you have a light out that way it signal fast
over 9000
Cause it sends out a signal that goes to a satellite very fast. Then it goes to where your connecting.(example...Your connecting to Google.The signal goes to the nearest Google headquarters.)
Because if there is a fire you have to be able to get out as fast as possible and if there are things in your way you could die.
Turn on that fast blinking signal light and check to see if the front and rear signal lights are both working, chances are you have a burned out bulb. If both front and rear bulbs are flashing fast, replace the flasher relay.
your signal light is burned out. The rear signal lights burn out quite quickly and the fast flashing is an indicator you need to replace them.
A light bulb needs to be replaced. The signal is fast because the electrical current is there, but since it does not turn on the burned out bult, it makes the others work twice as fast.
One of the bulbs is out. Replace it.
Wrong light bulb.
your signal light is burned out. The rear signal lights burn out quite quickly and the fast flashing is an indicator you need to replace them.