100 Examples of sentences containing the noun "binomial"

Definition

A "Binomial" is a mathematical term that refers to a polynomial that contains exactly two terms. In a broader context, it can also refer to a pair of names used in the classification of living organisms, typically consisting of the genus name followed by the species name.

Synonyms

• Polynomial (in the mathematical context)
• Dual name (in the biological context)

Antonyms

• Monomial (in the mathematical context)
• Unicellular (in the biological context)

Examples

1. The formula binomial can be simplified using the distributive property.
2. In algebra, we often work with a binomial expression like (x + y).
3. The scientist used a binomial nomenclature to classify the new species.
4. You can expand a binomial expression using the binomial theorem.
5. The binomial distribution is crucial in statistics for determining probabilities.
6. To solve the equation, we first need to factor the binomial.
7. The binomial coefficient is a key element in combinatorics.
8. Each binomial in the equation serves a specific purpose.
9. The researcher explained how a binomial can represent a genetic trait.
10. We derived the binomial formula from the properties of exponents.
11. The binomial theorem allows us to expand expressions with ease.
12. When working with a binomial, remember to apply the correct order of operations.
13. The concept of a binomial is integral to polynomial functions.
14. In ecology, a binomial name helps avoid confusion between species.
15. The binomial probability formula is used in many real-world applications.
16. You can apply the binomial theorem to calculate probabilities.
17. The mathematician demonstrated how to manipulate a binomial.
18. The binomial system of classification was developed by Linnaeus.
19. We learned about how to factor a binomial during our math class.
20. The binomial expansion is useful for calculating powers.
21. In genetics, the binomial name refers to the organism's two-part scientific name.
22. The professor emphasized the importance of the binomial distribution.
23. By applying the binomial theorem, we can simplify complex expressions.
24. The binomial nomenclature is essential for scientific communication.
25. The quadratic equation is a specific type of binomial.
26. A binomial can be represented graphically on a Cartesian plane.
27. Each binomial can have unique characteristics in polynomial functions.
28. The classification of animals often relies on their binomial names.
29. Understanding the binomial coefficients can enhance your math skills.
30. When you encounter a binomial, always check for common factors.
31. The binomial formula is often used in predictive modeling.
32. The binomial structure of the name helps in identifying species accurately.
33. In algebra, a binomial can be added or subtracted like any other expression.
34. The binomial distribution is a common topic in statistics.
35. To solve for x, you'll need to isolate the binomial on one side of the equation.
36. The binomial name must be italicized in scientific writing.
37. A binomial can sometimes be factored into two linear expressions.
38. The concept of a binomial is prevalent in both pure and applied mathematics.
39. The study of binomial distributions can yield insights into random events.
40. The binomial nomenclature system avoids ambiguity in species naming.
41. We practiced expanding a binomial using the binomial theorem today.
42. A binomial can represent a wide range of mathematical concepts.
43. The binomial coefficients can be found in Pascal's triangle.
44. In algebra, a binomial may have real or complex numbers as coefficients.
45. The significance of a binomial expression cannot be overstated in math.
46. Researchers often rely on binomial classifications to communicate findings.
47. The binomial theorem simplifies the expansion process significantly.
48. When combining two binomial expressions, it's essential to follow the rules.
49. The binomial coefficient tells us how many ways we can choose elements.
50. A binomial can be graphed to illustrate its behavior.
51. The binomial naming system was revolutionary for taxonomy.
52. In statistics, the binomial model can be applied to various scenarios.
53. The binomial formula allows for quick calculations in probability.
54. We can find the zeroes of a binomial equation by factoring.
55. The binomial nomenclature helps organize the vast diversity of life.
56. When a binomial is raised to a power, we can use the binomial theorem.
57. The binomial system provides a clear framework for scientific names.
58. Understanding the properties of a binomial is crucial for advanced mathematics.
59. The binomial distribution is often visualized with a histogram.
60. A binomial can be useful in modeling real-world scenarios.
61. We explored the relationship between a binomial and its roots.
62. The teacher assigned problems involving binomial expressions for homework.
63. The binomial system has been adopted worldwide in biology.
64. To find the area under a binomial, we can use integration techniques.
65. The binomial name provides a universal identifier for species.
66. In probability, the binomial distribution helps predict outcomes.
67. A binomial can be manipulated using algebraic identities.
68. The binomial theorem has applications in finance and engineering.
69. The elegance of a binomial expansion is appreciated by mathematicians.
70. Each binomial represents a unique mathematical construct.
71. The researcher explained how a binomial is derived from Latin.
72. When analyzing data, the binomial distribution can reveal patterns.
73. A binomial expression can be simplified through factoring.
74. The clarity provided by a binomial name is invaluable in research.
75. The binomial theorem is often the foundation for learning calculus.
76. Various species can be distinguished by their binomial names.
77. The binomial coefficient is used in various combinatorial problems.
78. A binomial can represent relationships between different variables.
79. The binomial model is a fundamental concept in statistics.
80. We learned how to apply the binomial theorem to solve equations.
81. The classification of organisms relies heavily on binomial names.
82. The binomial expansion can be seen in many mathematical proofs.
83. A binomial expression can be evaluated at different points.
84. The binomial nomenclature system is crucial for biodiversity studies.
85. In calculus, we often encounter binomial functions.
86. The properties of a binomial are essential for understanding polynomials.
87. Each binomial has its own set of rules for manipulation.
88. The binomial distribution can be applied in quality control processes.
89. In algebra, we often encounter quadratic binomials.
90. The binomial system helps maintain consistency in species identification.
91. A binomial can be used to model various phenomena in nature.
92. The binomial theorem simplifies complex calculations in science.
93. The researcher illustrated the concept of a binomial with examples.
94. We discussed the implications of a binomial in our biology class.
95. The binomial naming convention has stood the test of time.
96. A binomial can be expressed in different forms based on its coefficients.
97. The binomial probability formula is essential for decision-making.
98. Understanding the binomial concept can enhance your mathematical fluency.
99. The binomial naming system is standardized by international conventions.
100. A binomial can provide insights into the relationships between variables.