Time-to-live (TTL)
feed back loop
By adding in a check that can be fulfilled within the loop. Example: while x < 10 x ++; get_cookie(1); endwhile
The time complexity of using a while loop inside a for loop is O(nm), where n is the number of iterations of the for loop and m is the number of iterations of the while loop.
probably a for loop The for loop just runs through for a specified number of times, whereas the while loop has to check the conditions for each run, until a certain condition is satisfied (or not satisfied) when it then stops
In Java, you can use the "break" statement within a "for" loop to exit the loop prematurely. When the "break" statement is encountered, the loop will immediately stop executing and the program will continue with the code after the loop.
Endless Loop was created on 2005-12-14.
"In endless loop the value of i2 k10 and the loop will terminated when value of you is greater than k and the value of k is assign to 17 after the loop and it is said to endless loop why?"
feed back loop
Your loop-back address or localhost is always 127.0.0.1. When a packet is sent to this address, the packet is routed internally to the network loopback device. The packet is then received back by your computer as if it came from an outside source.
on going
When a magnetic field is applied to a loop, it induces an electric current in the loop.
feed back loop
There may sometimes be a problem, usually temporary, that data is sent back and forth, or goes around in a loop, due to some routing error. If this happens, the data will eventually be discarded. Every time a packet is re-sent, the TTL is reduced by one; when it goes down to zero, the packet "dies".
When there is a change in the direction of the magnetic field in a loop, an induced current is generated in the loop in a direction that opposes the change in the magnetic field.
Yes, but it will produce an endless loop?
The torque on a loop of current in a magnetic field is determined by the interactions between the magnetic field and the current loop. This torque is calculated using the formula x B, where is the torque, is the magnetic moment of the loop, and B is the magnetic field strength. The direction of the torque is perpendicular to both the magnetic moment and the magnetic field.
why, if the same current flows in a wire coil and a single loop, the magnetic field inside the coil stronger than the field inside the loop