Antiderivatives is an English word. Below you'll find 6 example sentences showing how it's used in practice.
Antiderivatives meaning
plural of antiderivative
Using Antiderivatives
- The main meaning on this page is: plural of antiderivative
- In the example corpus, antiderivatives often appears in combinations such as: antiderivatives of, have antiderivatives.
Context around Antiderivatives
- Average sentence length in these examples: 23.7 words
- Position in the sentence: 2 start, 2 middle, 2 end
- Sentence types: 6 statements, 0 questions, 0 exclamations
Corpus analysis for Antiderivatives
- In this selection, "antiderivatives" usually appears near the start of the sentence. The average example has 23.7 words, and this corpus slice is mostly made up of statements.
- Around the word, possible and finding stand out and add context to how "antiderivatives" is used.
- Recognizable usage signals include antiderivatives of non and can have antiderivatives. That gives this page its own corpus information beyond isolated example sentences.
- By corpus frequency, "antiderivatives" sits close to words such as aaas, aacc and aacs, which helps place it inside the broader word index.
Example types with antiderivatives
The same corpus examples are grouped by length and sentence type, making it easier to see the contexts in which the word appears:
Antiderivatives of non-continuous functions Non-continuous functions can have antiderivatives. (11 words)
Techniques of integration Finding antiderivatives of elementary functions is often considerably harder than finding their derivatives. (16 words)
Some authors define the indefinite integral of a function as the set of its infinitely many possible antiderivatives. (18 words)
Essentially, the graphs of antiderivatives of a given function are vertical translations of each other; each graph's vertical location depending upon the value of C. In physics, the integration of acceleration yields velocity plus a constant. (37 words)
If all the partial derivatives of a function are known (for example, with the gradient ), then the antiderivatives can be matched via the above process to reconstruct the original function up to a constant. (34 words)
While there are still open questions in this area, it is known that: * Some highly pathological functions with large sets of discontinuities may nevertheless have antiderivatives. (26 words)
Example sentences (6)
Antiderivatives of non-continuous functions Non-continuous functions can have antiderivatives.
Essentially, the graphs of antiderivatives of a given function are vertical translations of each other; each graph's vertical location depending upon the value of C. In physics, the integration of acceleration yields velocity plus a constant.
If all the partial derivatives of a function are known (for example, with the gradient ), then the antiderivatives can be matched via the above process to reconstruct the original function up to a constant.
Some authors define the indefinite integral of a function as the set of its infinitely many possible antiderivatives.
Techniques of integration Finding antiderivatives of elementary functions is often considerably harder than finding their derivatives.
While there are still open questions in this area, it is known that: * Some highly pathological functions with large sets of discontinuities may nevertheless have antiderivatives.
Common combinations with antiderivatives
These word pairs occur most frequently in English texts:
- antiderivatives of 3×
- have antiderivatives 2×