What are vectors in aviation?

What are vectors in aviation?

A vector is a magnetic heading given to an aircraft from air-traffic control (ATC) to be flown for a period of time or distance. It can be a magnetic compass heading or the numerical value of that heading.

What is sequencing in aviation?

Sequencing is the act by an air traffic controller of which he or she orders/numbers aircraft in a traffic pattern or numbers aircraft for landing/the option. Sequencing allows pilots to know who they’re supposed to follow when it’s busy or there’s other aircraft coming in for landing or traffic work.

How are vectors used in real life?

Vectors have many real-life applications, including situations involving force or velocity. For example, consider the forces acting on a boat crossing a river. The boat’s motor generates a force in one direction, and the current of the river generates a force in another direction. Both forces are vectors.

What is a vector approach?

The common vector approach (CVA) is a subspace method that eliminates unwanted information, such as environmental effects, personal and phase differences, and temporal variations from a spoken word.

What does What’s your vector mean?

Noun: A quantity having direction as well as magnitude, esp. as determining the position of one point in space relative to another.

What do you need to know about vector control?

This article will explain how vector control works in a friendly and harmless way. However, first we need to clarify what we mean by control when discussing motor drives: Imagine walking your dog, Fido, in the park. You have a leash attached to Fido, so he may snoop around as he like to the extent of his leash.

How is a vector used to sequence DNA?

Vector/Medium which can help to sequence an unknown DNA sequence. For e.g. Phage as a medium to transfer the DNA sequence to be sequenced into a bacteria or a cell which secretes ssDNA in the medium.

How does active current work in vector control?

The active current is used to control either speed, power or torque. It is important to understand that whether the reference is in speed or power, it is still torque that is being controlled. E.g. if speed too slow: apply more torque. Torque is given directly by the amount of active current.

Why is vectorization, faster in general, than loops?

On optimally vectorized code, it was much closer to the speed of a current CPU than you might expect based solely on its (much lower) clock speed. Taking full advantage of that wasn’t always easy though (and still isn’t).