Response time
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5 ms is faster. The response time is the amount of time a pixel in an LCD monitor takes to go from active (black) to inactive (white) and back to active (black) again. It is measured in milliseconds (ms). Lower numbers mean faster transitions and therefore fewer visible image artifacts. (from Wikipedia).
A typical reflex usually takes around 150 to 300 milliseconds to occur. This includes the time it takes for the nerve signal to travel from the sensory receptor to the spinal cord and then to the muscle to produce a response.
About the time it takes to say 1. 1/60 of a minute. 100 milliseconds.
Milliseconds are a unit of time. In one second, there are one thousand milliseconds.
72.480 milliseconds = 0.072480 seconds
Milliseconds are written as "ms." This unit of time is equal to one-thousandth of a second. For example, 500 milliseconds can be written as 500 ms.
The NOP (No Operation) instruction takes time but does nothing to the data or the status of the microprocessor. When executed in a loop, it can take substantial time, from microseconds, to milliseconds, to seconds.
Depends on the monitor in question. Find the devices data sheet and look for the Display Latency (or something similar) anything under ~1 milliseconds is not noticeable. This latency is the amount of time it takes from the monitor's controller to push the data to the display after it has been received. If you are just watching a movie this really doesn't matter, but if you are playing a video game or something that requires the monitor to update as soon as the this latency can play a big factor in the usability.
milliseconds
Those are really measures of time, not of "fastness" or speed.But if something takes less time, you can say that it occurs faster - in this case, 1 microsecond is less time, and therefore faster.
To convert milliseconds to feet per minute, you first need to determine the distance covered in feet for the given time in milliseconds (if the distance is constant). Then, you can calculate the speed in feet per minute by dividing the distance by the time in minutes (converted from milliseconds). So the formula would be: Speed (feet per minute) = Distance (feet) / Time (minutes).