Due to the strong intermolecular force of attraction in cellulose it provides high strength and support.
Cellulose is a significant polysaccharide since it is the most copious natural compound on Earth. Cellulose is a significant segment of intense cell dividers that encompass plant cells, and it's what makes plant stems, leaves, and branches so solid. It absolutely takes a ton of effort to cause damage to the structure of cellulose.
Cellulose particles are arranged parallel to one another and are combined with hydrogen bonds. This structures long, link like structures, which join with other cellulose atoms and is the thing that produces such a solid help structure.
Some fungi and insects benefit each other; the fungi protects the insects from predators and the insects spread spores for the fungi. This is an example of a _______ relationship.
Answer:
vegetative
decomposers
mutualistic
The primary way that fungi reproduce and spread their species on Earth is through spores. These spores are carried by the wind or by other organisms.
The role of mycorrhizae in plants is that they live in the roots of plants and turn unusable matter into minerals and water for the plants. The plants also provide energy and a place for the mycorrhiza to live.
The three main substances that fungi convert into usable forms for other organisms are phosphorus, nitrogen, and carbon.
Fungi break down organic matter and convert it into usable nutrients.
It's helpful that fungi attack and kill other organisms that are parasitic because these parasitic organisms can wreak havoc on the ecosystem. The fungi help to protect other species and populations by controlling and curbing the growth of the parasitic organism.
Explanation:
PF
Multicellular fungi have a vegetative stage and a reproductive stage in their lives.
Many fungi play a critical environmental role as decomposers, breaking down organic material into nutrients for the soil and other organisms.
Some fungi and insects benefit each other; the fungi protect the insects from predators and the insects spread spores for the fungi. This is an example of a mutualistic relationship.
A Mutualistic relationship may be defined as a type of +,+ interaction where both species are benefitted from the presence of each other.
Multicellular fungi undergo two stages in their life cycle, i.e. vegetative stage and the reproductive stage. Some fungi are decomposers that convert dead organic material into inorganic one which is easily consumed by plants.
Therefore, it is well described above.
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b. denitrification
c. saturation
d. all of the above
the correct answer is b. denitrification
Answer:
True
Explanation:
Specialization refers to a specific job or task something or someone does. It is very specific. For example a teacher has a specialization in educating
Answer:
1-They have their own DNA, which is separate from the DNA found in the nucleus of the cell. 2- both organelles use their DNA to produce many proteins and enzymes required for their function. 3- A double membrane surrounds both mitochondria and chloroplasts, further evidence that each was ingested by a primitive host.
Explanation:
he created two laws of inheritance. How is a
scientific law formed?
Answer:
A scientific law is formed when the results of an experiment generate the same results every time a particular experiment is performed. A scientific law is made when something has been thoroughly tested again and again through experimentation. Unlike the theory, a scientific law is not subjected to change with time. A scientific law is accepted universally and other hypothesis can be generated based on the authenticity of the law.
A scientific law is formed through a process of repeatable, empirical observations over time. It is a clear and concise statement predicting certain phenomena derived from defined patterns in data. Mendel, for instance, formulated the laws of inheritance based on predictable patterns he observed in his study of pea plants.
A scientific law is typically formed through the process of repeatable, empirical observations over time. These observations are then formulated into a clear and concise statement that can predict certain phenomena. For example, in the case of Mendel, he observed the inheritance patterns of pea plants through several generations and formulated his laws: the Law of Segregation and the Law of Independent Assortment. Each of these laws was derived from clear patterns he observed in his data over time. Once these patterns became predictable and repeatable, they formed the basis for the scientific laws.
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