Al(s) | Al+(aq) Na+(aq) | Na(s) A.The cell is electrolytic.C.It has a negative emf.D.Na is reduced.
Li(s) | Li+(aq) Na+(aq) | Na(s) A.Charge flows from the anode to the cathode.B.Na is reduced.C.The reaction is spontaneous.D.It has a positive emf.
Ag(s) | Ag+(aq) Au+(aq) | Au(s) A.The cell is galvanic.B.Charge flows from the anode to the cathode.
The topology of ecological interaction webs holds important information for theories of coevolution, biodiversity, and ecosystem stability [1,2,3,4,5,6]. However, most previous network analyses solely counted the number of links and ignored variation in link strength. Because of this crude resolution, results vary with scale and sampling intensity, thus hampering a comparison of network patterns at different levels [7,8,9]. We applied a recently developed [10] quantitative and scale-independent analysis based on information theory to 51 mutualistic plant-animal networks, with interaction frequency as measure of link strength. Most networks were highly structured, deviating significantly from random associations. The degree of specialization was independent of network size. Pollination webs were significantly more specialized than seed-dispersal webs, and obligate symbiotic ant-plant mutualisms were more specialized than nectar-mediated facultative ones. Across networks, the average specialization of animal and plants was correlated, but is constrained by the ratio of plant to animal species involved. In pollination webs, rarely visited plants were on average more specialized than frequently attended ones, whereas specialization of pollinators was positively correlated with their interaction frequency. We conclude that quantitative specialization in ecological communities mirrors evolutionary trade-offs and constraints of web architecture. This approach can be easily expanded to other types of biological interactions.
One of the generalizations of the cell theory is that all living things are composed of cells. Another one is that cells are the building blocks of life.
i dont freaking know dummy im asking yall dummies
The cell is the smallest unit that displays the properties of life.
The cell theory is a scientific theory that describes the characteristics of cells. It states that all organisms are made up of cells that arise from other cells.
All living things are composed of one or more cells.
The cell is the basic unit of structure and function.
All cells come from pre-existing cells.
Basic structural and functinal unit of life is the cell.Every cell is existing from pre existing cell.
That statement is part of cell theory, which is summarized as follows:Living organisms are composed of one or more cells.Cells are the most basic unit of life.Cells come from other living cells which preceded them.
The cell theory is what humans are composed of
Schleiden, Swann and Virchow presented the cell theory.........
cell theory used in a sentence
The cell theory
-The generalization that all living things are made of cells -All cells come from pre-existing cells -The cell is the basic unit of structure and function
The scientific study of theory is the generalization or abstract thinking.
John B. Watson
The General theory of relativity primarily applies to particles as they accelerate, particularly due to gravitation
Scientific theory
The word "generalization" is the noun form of the word "generalize. " An example of a sentence using the word "generalization" is "Their theory is a broad generalization that doesn't always hold true. "
Theory is an abstract generalization that systematically explains how phenomena is interrelated, consisting of concepts and a set of propositions.
-Make up boundary of cell so that watery contents are contained within cell.
The name of the theory that Schleiden and Schwann developed is the cell theory.
the cell thery
A generalization is started from a group of observations. It's when specific observations reach a general conclusion, when the conclusion is made, then it is a generalization of all other things. Ex. "All things are made from cells" This is a generalization called the cell theory. People observed many things made from cells, inferred that it was true, and then made more observations to confirm it. The funny thing is I went on google to answer this question for my homework, I just answered it myself. Odd how you get such instant answers by using a search engine ... hint: that's what they're for!
they official formulated the cell theory in 1665