No they do not, obviously and I'm going to tell Phommasasyy on you!
All Oscillatoria cells do not look alike. Oscillatoria uses photosynthesis in order to survive as well as to reproduce. These cells are part of the bacteria kingdom.
A filament is a thin rod like long structure usually cylinderical in shape i.e. open at both ends.
Homeostasis is a state of balance within the internal environment of the body within certain narrow limits. All of the body's systems work together to maintain homeostasis.
Nostocales The Nostocales order contains most of the species of cyanobacteria. It includes filamentous forms, both simple or branched, and both those occurring as single strands or multiple strands within a sheath. Jon. Anderson Olympia, Washington
The sliding filament theory is the explanation for how muscles produce force (or, usually, shorten). It explains that the thick and thin filaments within the sarcomere slide past one another, shortening the entire length of the sarcomere. In order to slide past one another, the myosin heads will interact with the actin filaments and, using ATP, bend to pull past the actin.
Because of the weather and the environment -From Derek in Sugar Land Texas
All Oscillatoria cells do not look alike. Oscillatoria uses photosynthesis in order to survive as well as to reproduce. These cells are part of the bacteria kingdom.
stamen, which has an anther and a filament within it
It's called differentiation and it's not yet as well understood as we'd like it to be. Some genes get activated and others get deactivated during mitosis. The process appears to be mediated by peptide signals from within the cell and from neighboring cells.
Differentiation in general terms is the identification of one item from another based on differences between them. Differentiation mathematically is the measurement of rates of change of values. This is a vast area of mathematics contained within Calculus, usually attributed to Isaac Newton.
differentiation. During the development of an organism, cells undergo differentiation, which involves changes in their structure and function. This process allows cells to specialize and perform specific tasks within the organism, such as muscle contraction or photosynthesis. Specialized cells form tissues, which further organize into organs and organ systems.
The globe is the outer glass shell. The shaped coil inside is the filament. Wires and the stem support the filament inside the bulb. There are gases within the light bulb to prevent it from burning out. And the base is to securely support the bulb.
This is for Apex Learning The answer isDifferentiation
A filament is a thin rod like long structure usually cylinderical in shape i.e. open at both ends.
Thomas Edison It was actually Irving Langmuir (of General Electric), also an American. Edison's incandescent lamp used a carbon filament, as did that of his contemporary, England's Joseph Swan who got there before Edison (who invented a longer lasting carbon filament). William Coolidge improve on Langmuir's filament by making it longer (the familiar twisted shape) and brighter. Humphrey Davy had invented a platinum filament way back in 1809 that worked, but was too expensive for commercial use. Those that followed him failed to cotton on to the use of a metallic filament and went for carbon instead. What Tomas Edison can claim is the 'development' of a commercially useful light bulb using a carbon filament - though this was superseded by the tungsten filament not long after.
Yes. They can pay off the mortgage within a certain time period set by the lender.Yes. They can pay off the mortgage within a certain time period set by the lender.Yes. They can pay off the mortgage within a certain time period set by the lender.Yes. They can pay off the mortgage within a certain time period set by the lender.
The orthogenetic principle proposes that development moves from undifferentiated and diffuse organization toward greater complexity, achieved through both differentiation and consolidation within and across subsystems.
here are some characteristics of multicellular organisms:Increase in size to protect from predators, beyond the limits allowed by the surface area to volume ratio of diffusion.Allows differentiation of cells within a population, increasing survival chance via specialisation of individuals within a group to certain tasks.Permits increasing complexity, e.g. cellularsignaling cascades and networks which facilitates diversification of specific cellular lineages.allows for sexual reproductionwhich can accommodate greater species adaptability to the environment.