0
What else can I help you with?
DNA computers have the potential to take computing to new levels which of the following is not an advantage of using DNA instead of silicon?
Today's computers are many times smaller than DNA computers.
What are theDifferences between DNA computers and silicon computers?
DNA provides many potential computing advantages compared to silicon. First, silicon is a limited resource, whereas DNA will be in constant supply as long as cellular organisms exist. Because DNA is readily available, it's cheap compared to silicon. Next, "biochips" made of DNA are eco-friendly, compared to the toxic materials required to manufacture silicon microprocessors. Finally, DNA computers would be much smaller than current computers.
Latest topics in electronics for PowerPoint presentation?
Quantum Computers,3g technology,latest robots,DNA computers
Does Logitech make computers?
No, they only make peripherals for computers not computers themselves.
Do computers viruses have DNA?
No. Computer viruses use lines and strings of code.
When did Charles Dickens make computers?
He didn't make computers, he wrote books.
What can make up DNA?
nothing can make DNA, DNA is very unique. all though scientist are working on and have cloned DNA.
Are old computers used to make new computers?
No.
State why DNA replicates.?
DNA replicates so that it can make an exact copy of the DNA molecule.
why do we have DNA in our body?
we have DNA to make proteins.
Do Asians make computers?
Yes, some Asians do make computers. Japan exports a variety of computer parts, as does China. Not all Asian countries make computers though.
How are electrophoresis and computers used in DNA sequencing?
Electrophoresis is a technique used in DNA sequencing to separate DNA fragments based on their size, allowing for the visualization of different sequences. After amplification and labeling of DNA fragments, they are subjected to electrophoresis, where an electric field drives the negatively charged DNA through a gel matrix. Computers play a crucial role in DNA sequencing by analyzing the data generated from electrophoresis, interpreting the patterns of DNA fragments, and assembling the sequences through bioinformatics algorithms. Together, these technologies enable rapid and accurate determination of genetic information.
