Trigonometric functions are periodic - they repeat after a period of pi, or 2 x pi.Trigonometric functions are periodic - they repeat after a period of pi, or 2 x pi.Trigonometric functions are periodic - they repeat after a period of pi, or 2 x pi.Trigonometric functions are periodic - they repeat after a period of pi, or 2 x pi.
There are three types of trigonometric functions, they are: 1- Plane Trigonometric Functions 2- Inverse Trigonometric Functions and 3- Hyperbolic Trigonometric Functions
There are infinitely many possible functions that can generate this sequence. One such isUn = (n2 - 3n + 2)/2 = (n-2)*(n-1)/2There are infinitely many possible functions that can generate this sequence. One such isUn = (n2 - 3n + 2)/2 = (n-2)*(n-1)/2There are infinitely many possible functions that can generate this sequence. One such isUn = (n2 - 3n + 2)/2 = (n-2)*(n-1)/2There are infinitely many possible functions that can generate this sequence. One such isUn = (n2 - 3n + 2)/2 = (n-2)*(n-1)/2
Analysis of functions..?
A "family of functions" is simply a group of functions that have some common characteristic. You can decide for yourself whether you consider them similar enough or not.
1-It helps in exchange of gases 2-It helps in transpiration
The stomata in a plant has many important functions. Located on the leaves of plants the stomata take in air for plant respiration and aid in photosynthesis.
No, stomata cells are not animal cells. Stomata cells are specialized plant cells responsible for gas exchange, whereas animal cells are the building blocks of animal tissues and perform various functions in animal organisms.
No, stomata are microscopic pores found on the surface of leaves and stems that allow for gas exchange, while a stoma refers to an individual pore itself. Stomata are collectively responsible for regulating the exchange of gases like oxygen and carbon dioxide in plants.
stomata =Specialized passages through the cuticle that enable plants to exchange gases.
Stomata regulate the exchange of gases such as oxygen and carbon dioxide between the plant and its environment during photosynthesis and respiration. Stomata also regulate the loss of water vapor through transpiration, helping to maintain proper water balance within the plant.
The openings in leaves that regulate gas exchange are called stomata. Stomata are tiny pores that allow for the exchange of gases such as oxygen and carbon dioxide with the surrounding environment. They play a crucial role in photosynthesis and transpiration in plants.
Stomata
Stomata is already the plural form of stoma.
The stomata are small openings in the bottom of a leaf that absorb carbon dioxide [as well as help release oxygen] which is then combined with sugar to make glucose or sugar for the plant to turn into energy to carry out specific functions.
Leaves contain stomata for gas exchange, palisade mesophyll for photosynthesis, and vascular tissue in the midribs and veins for nutrient transport. These structures help the leaf to carry out its essential functions efficiently.
generally xerophytic plants have sunken stomata