As quarts are used more often the the US, I'll assume US measurements:
2 qt = 1/2 gal = 64 fl oz
→ 64 fl oz / 20 fl oz/pkt = 3 1/5 packets = 3.2 packets.
Just on the outside chance its a UK question:
2 qt = 1/2 gal = 80 fl oz
→ 80 fl oz / 20 fl oz/pkt = 4 packets.
There are 64 fluid ounces of water in 2 quarts. If you use 1 packet for 20 ounces of water, you would need 3.2 packets for 2 quarts.
one packet One packet, then prepare yourself for jail.
If you actually purchase 64 packets.Then you simply divide 64 by 4 and get 16 additional "free" packets of powder.Oops, now you have 16 more packets...And, divide that by 4 again to get 4 additional "free" packets.And, divide that by 4 again and you will get 1 additional "free" packet.So, you would have a total of 16+4+1 free packets = 21 free packets.And, you would have one token left over.Your total is 64 purchased packets, 21 free packets, and 85 total packets.
If we are sending a file in one go and if some error occurred in between the file transfer then the complete file has to be resend which wastes the bandwidth so to prevent this, the file to send is divided in to smaller unit which we call packet, and then send packets 1 by one so that if a packet is lost then we need to send only that particular packet not the complete file.
PDV stands for packet delay variation. It is a term used in computer networking which is the difference in the end-to-end one-way delay between selected packets in any ignored lost packets.
uses one pair for receiving packets and another pair for sending packets.
The High School Quizbowl Packet Archive is one of the best places for studying old packets (which is in itself one of the best ways of improving in quizbowl). There is also a tab for the Collegiate packet archive on the page. The Stanford Packet Archive also has some old packets, but they are generally of lesser quality.The people on the Hsquizbowl forum can help out with this. I have placed all three sites below.
In fair queue packet from each queue is processed one by one means 1 from 1st class then next packet from another class hence when 1 packet of each class is transmitted 2nd packet from each class will b transmitted and so on .So here each class gets a fair chance for transmission whereas in weighted queue each class is assigned some weight and packets are processed according to the weight if weight is 3 then 3 packets of that class will be transmitted then next class if suppose weight is 2, 2 packets of this class will b transmitted and so on.
All the power cards come from packets, and the codes in each packet are different so no one can steal them just like memberships on cards. Unless you buy a bunch of packets you will not really get them.
Yes, VPN uses IPSec to encrypt the contents of the packet in one of two ways. The packet is encrypted and then placed in another packet for transport, with tunnel encryption the entire packet is encrypted including the header is placed in the public network packet.
If we are sending a file in one go and if some error occurred in between the file transfer then the complete file has to be resend which wastes the bandwidth so to prevent this, the file to send is divided in to smaller unit which we call packet, and then send packets 1 by one so that if a packet is lost then we need to send only that particular packet not the complete file. As the packet reaches its destination, the destination source send acknowledgement to the sender that the packet has reached to it and it may send the next packet and if packet somehow lost before reaching to the destination source, then the sender itself resends the packet after a fixed amount of time.
If we are sending a file in one go and if some error occurred in between the file transfer then the complete file has to be resend which wastes the bandwidth so to prevent this, the file to send is divided in to smaller unit which we call packet, and then send packets 1 by one so that if a packet is lost then we need to send only that particular packet not the complete file. As the packet reaches its destination, the destination source send acknowledgement to the sender that the packet has reached to it and it may send the next packet and if packet somehow lost before reaching to the destination source, then the sender itself resends the packet after a fixed amount of time.
Take out 9 cigarettes from each pack..the one left with none...is the one.... Other way is to simply open the packet and look for the one pack which has one less cigarette. No measuring is required here.