interactive
keskweythresek · kesoberel · kesvewek · keswriansek · ynterweythel
interactivity oor Kornies
interactivity
en
The quality of being interactive
Vertalings in die woordeboek Engels - Kornies
kesober
Geskatte vertalings
Vertoon algoritmies gegenereerde vertalings
Soortgelyke frases
voorbeelde
Advanced filtering
Voorbeelde moet herlaai word.
This is a boxed collection of all 6 of the first series of 'Tales From Porth' books, with a free interactive CD. The CD is a fun and useful tool for helping all the family to learn Cornish by exploring Porth and it's characters, with games, quizes and all sorts of fun activities.
Res yw dhymm eva.langbot langbot
interactive (information technology)
Prag yth yw res dhis gul henna lemmyn?langbot langbot
interact
Res yw dhyn fistena lemmyn.langbot langbot
interactive
Hi a bon.langbot langbot
Humans (Homo sapiens) are the most abundant and widespread species of primate, characterized by bipedalism and large, complex brains. This has enabled the development of advanced tools, culture, and language. Humans are highly social and tend to live in complex social structures composed of many cooperating and competing groups, from families and kinship networks to political states. Social interactions between humans have established a wide variety of values, social norms, and rituals, which bolster human society. Curiosity and the human desire to understand and influence the environment and to explain and manipulate phenomena have motivated humanity's development of science, philosophy, mythology, religion, and other fields of study. Although some scientists equate the term humans with all members of the genus Homo, in common usage it generally refers to Homo sapiens, the only extant member. Anatomically modern humans emerged around 300,000 years ago in Africa, evolving from Homo heidelbergensis and migrating out of Africa, gradually replacing local populations of archaic humans. For most of history, all humans were nomadic hunter-gatherers. The Neolithic Revolution, which began in Southwest Asia around 13,000 years ago (and separately in a few other places), saw the emergence of agriculture and permanent human settlement. As populations became larger and denser, forms of governance developed within and between communities and a number of civilizations have risen and fallen. Humans have continued to expand, with a global population of over 7.9 billion as of March 2022.
Klav yw.langbot langbot
interactive (information technology)
Ni a allas gul henna.langbot langbot
interactive
Nyns yw pur vras an chi ma.langbot langbot
interactive a. kesweythüs nc; kesweythresek nc; ynteractiv i
Nownsek bloodh ov.langbot langbot
interactivity
Da yw gans Tom ergh.langbot langbot
interact with itself
Res vydh dhymm gul henna.langbot langbot
No chairs, of course, and a long-suffering barmaid (who was probably married to the publican or the publican’s son) cramped behind the heavy wooden bar. Got the picture? (I’ll spare you the details of what it smelled like.) As is often the case when troops from foreign lands are called upon to fight side-by-side with the locals, despite the salubrious nature of the amenities offered in their local public bar, (or, perhaps, because of them), the two groups usually end up fighting each other. One recalls well the events of Brisbane in 1943 – when US Marines and Australian soldiers staged large-scale street battles against each other even though their common enemy, the Japanese Imperial Army, was virtually on the doorstep at the time – and pressing hard, bombing Darwin, Townsville, Katherine and other cities of the North. Such is human nature when large groups of young men, far away from home and family, are forced to be together. Anyway, a bunch of Aussie soldiers were freshly returned from their particular part of the ‘front’. (In this war, of course, ‘the front’ was a somewhat fluid concept since the zombies weren’t actually putting up any organised or armed resistance. The military operations against them were more by way of ‘clearance’, area by area.) These guys had been in the Fern Tree Gully area – then part of the urban/rural interface but now very much part of middle-class suburbia. They were regaling each other with tales recounting their recent exploits. Apparently, the zombies had been loitering about places of civic or public interest: the library, the town hall, even the old, rural courthouse. Why do zombies do that? Why do they not just stay at home? Maybe some of them do – but they do seem too have this urge to congregate in communal areas. Social interaction? I don’t think so – zombies, all male, are not great conversationalists (even worse than their living counterparts). In any event, this habit made them easy targets for ‘clearance’. A convoy of Alvis APC’s (Armoured Personnel Carriers) had moved along Fern Tree Gully Road until it came to the first objective (the Town Hall). The troops alighted, with minimal resistance from the surprised locals.
Da yw genes mowesi.langbot langbot
VENTURING OUT. I didn’t get any more out of him for the rest of the time we were there either. The attempt at getting David to play cards had backfired badly. He withdrew from me and refused to interact – cards were definitely off his agenda. In fact, I woke one night to find him shredding the entire pack – card by card. I’m not sure how many days we stayed in the crypt. I didn’t specifically count and the difference between daylight and night-time inside the crypt was not always clear-cut. Let’s just say we were there a few days before I even considered leaving. After all, we were warm enough, safe from intruders (no- one ever came knocking) and, for the time being, there was ample food and water . But we couldn’t stay there forever, could we? Within 48 hours or so of our taking shelter in the crypt, the fighting seemed to have stopped. Gunfire had dwindled from merely sporadic to non-existent. There were no audible groans, screams or cries of panic. From this, I deduced that the zombies hereabouts were a spent force – if not altogether extinct. So, if I ventured out in the dead of night without David, I was now unlikely to be eaten – but would I be shot? That was the question. How many of the soldiers remained in place after the battle was done and how many had moved onto where they were now more needed. I would have to check it out – 4.00 am on a moonless night seemed like a good time to start. Before I left, I told David that I would be gone for a short time but that I would return very soon. He looked at me impassively. Did he understand what I had said? I asked him. He remained impassive. As I said, he had been quite withdrawn of late – since the abortive card game – and maybe he just didn’t care as much about me anymore. Who would know? I decided I needed to do my reconnaissance whether or not David understood – or cared.
Kas yw genev an leurlen ma.langbot langbot
interactive
Ple hwelsys ta Nancy?langbot langbot
Deoxyribonucleic acid (/diːˈɒksɪˌraɪboʊnjuːˌkliːɪk) DNA is a polymer composed of two polynucleotide chains that coil around each other to form a double helix carrying genetic instructions for the development, functioning, growth and reproduction of all known organisms and many viruses. DNA and ribonucleic acid (RNA) are nucleic acids. Alongside proteins, lipids and complex carbohydrates (polysaccharides), nucleic acids are one of the four major types of macromolecules that are essential for all known forms of life. The two DNA strands are known as polynucleotides as they are composed of simpler monomeric units called nucleotides.[2][3] Each nucleotide is composed of one of four nitrogen-containing nucleobases (cytosine [C], guanine [G], adenine [A] or thymine [T]), a sugar called deoxyribose, and a phosphate group. The nucleotides are joined to one another in a chain by covalent bonds (known as the phospho-diester linkage) between the sugar of one nucleotide and the phosphate of the next, resulting in an alternating sugar-phosphate backbone. The nitrogenous bases of the two separate polynucleotide strands are bound together, according to base pairing rules (A with T and C with G), with hydrogen bonds to make double-stranded DNA. The complementary nitrogenous bases are divided into two groups, pyrimidines and purines. In DNA, the pyrimidines are thymine and cytosine; the purines are adenine and guanine. Both strands of double-stranded DNA store the same biological information. This information is replicated when the two strands separate. A large part of DNA (more than 98% for humans) is non-coding, meaning that these sections do not serve as patterns for protein sequences. The two strands of DNA run in opposite directions to each other and are thus antiparallel. Attached to each sugar is one of four types of nucleobases (or bases). It is the sequence of these four nucleobases along the backbone that encodes genetic information. RNA strands are created using DNA strands as a template in a process called transcription, where DNA bases are exchanged for their corresponding bases except in the case of thymine (T), for which RNA substitutes uracil (U).[4] Under the genetic code, these RNA strands specify the sequence of amino acids within proteins in a process called translation. Within eukaryotic cells, DNA is organized into long structures called chromosomes. Before typical cell division, these chromosomes are duplicated in the process of DNA replication, providing a complete set of chromosomes for each daughter cell. Eukaryotic organisms (animals, plants, fungi and protists) store most of their DNA inside the cell nucleus as nuclear DNA, and some in the mitochondria as mitochondrial DNA or in chloroplasts as chloroplast DNA.[5] In contrast, prokaryotes (bacteria and archaea) store their DNA only in the cytoplasm, in circular chromosomes. Within eukaryotic chromosomes, chromatin proteins, such as histones, compact and organize DNA. These compacting structures guide the interactions between DNA and other proteins, helping control which parts of the DNA are transcribed.
Gwynn yw ow heun.langbot langbot
Animals (also called Metazoa) are multicellular, eukaryotic organisms in the biological kingdom Animalia. With few exceptions, animals consume organic material, breathe oxygen, are able to move, can reproduce sexually, and go through an ontogenetic stage in which their body consists of a hollow sphere of cells, the blastula, during embryonic development. Over 1.5 million living animal species have been described—of which around 1 million are insects—but it has been estimated there are over 7 million animal species in total. Animals range in length from 8.5 micrometres (0.00033 in) to 33.6 metres (110 ft). They have complex interactions with each other and their environments, forming intricate food webs. The scientific study of animals is known as zoology. Most living animal species are in Bilateria, a clade whose members have a bilaterally symmetric body plan. The Bilateria include the protostomes—in which many groups of invertebrates are found, such as nematodes, arthropods, and molluscs—and the deuterostomes, containing both the echinoderms as well as the chordates, the latter containing the vertebrates. Life forms interpreted as early animals were present in the Ediacaran biota of the late Precambrian. Many modern animal phyla became clearly established in the fossil record as marine species during the Cambrian explosion, which began around 542 million years ago. 6,331 groups of genes common to all living animals have been identified; these may have arisen from a single that lived 650 million years ago. Historically, Aristotle divided animals into those with blood and those without. Carl Linnaeus created the first hierarchical biological classification for animals in 1758 with his Systema Naturae, which Jean-Baptiste Lamarck expanded into 14 phyla by 1809. In 1874, Ernst Haeckel divided the animal kingdom into the multicellular Metazoa (now synonymous for Animalia) and the Protozoa, single-celled organisms no longer considered animals. In modern times, the biological classification of animals relies on advanced techniques, such as molecular phylogenetics, which are effective at demonstrating the evolutionary relationships between taxa. Humans make use of many other animal species, such as for food (including meat, milk, and eggs), for materials (such as leather and wool), as pets, and as working animals including for transport. Dogs have been used in hunting, as have birds of prey, while many terrestrial and aquatic animals were hunted for sports. Nonhuman animals have appeared in art from the earliest times and are featured in mythology and religion.
Ow thas yw.langbot langbot
Neodymium is a chemical element with the symbol Nd and atomic number 60. It is the fourth member of the lanthanide series and is considered to be one of the rare-earth metals. It is a hard, slightly malleable, silvery metal that quickly tarnishes in air and moisture. When oxidized, neodymium reacts quickly to produce pink, purple/blue and yellow compounds in the +2, +3 and +4 oxidation states.[5] It is generally regarded as having one of the most complex spectra of the elements.[6] Neodymium was discovered in 1885 by the Austrian chemist Carl Auer von Welsbach, who also discovered praseodymium. It is present in significant quantities in the minerals monazite and bastnäsite. Neodymium is not found naturally in metallic form or unmixed with other lanthanides, and it is usually refined for general use. Neodymium is fairly common—about as common as cobalt, nickel, or copper—and is widely distributed in the Earth's crust.[7] Most of the world's commercial neodymium is mined in China, as with many other rare-earth metals. Neodymium compounds were first commercially used as glass dyes in 1927 and remain a popular additive. The color of neodymium compounds comes from the Nd3+ ion and is often a reddish-purple, but changes with the type of lighting, because of the interaction of the sharp light absorption bands of neodymium with ambient light enriched with the sharp visible emission bands of mercury, trivalent europium or terbium. Neodymium-doped glasses are used in lasers that emit infrared with wavelengths between 1047 and 1062 nanometers. These lasers have been used in extremely high-power applications, such as experiments in inertial confinement fusion. Neodymium is also used with various other substrate crystals, such as yttrium aluminium garnet in the Nd:YAG laser.
Na skrifis, ny skrifis henna.langbot langbot
Geography (from Greek: γεωγραφία, geographia, literally "earth description") is a field of science devoted to the study of the lands, features, inhabitants, and phenomena of the Earth and planets. The first person to use the word γεωγραφία was Eratosthenes (276–194 BC). Geography is an all-encompassing discipline that seeks an understanding of Earth and its human and natural complexities—not merely where objects are, but also how they have changed and come to be. Geography is often defined in terms of two branches: human geography and physical geography. Human geography is concerned with the study of people and their communities, cultures, economies, and interactions with the environment by studying their relations with and across space and place. Physical geography is concerned with the study of processes and patterns in the natural environment like the atmosphere, hydrosphere, biosphere, and geosphere.
Ple’mons i?langbot langbot
I speak to many businesses, residents and partners who say that it is frustrating to contact or interact with us because processes take too long and they don’t understand the words on our forms or responses to emails.
Yth esov vy owth assaya.langbot langbot
interactive
25 bloodh ov.langbot langbot
interact with itself
Yth esov vy yn Dubai.langbot langbot
interactive
Yma dhodho diw vyrgh.langbot langbot
Xenon is a chemical element with the symbol Xe and atomic number 54. It is a colorless, dense, odorless noble gas found in Earth's atmosphere in trace amounts.[11] Although generally unreactive, it can undergo a few chemical reactions such as the formation of xenon hexafluoroplatinate, the first noble gas compound to be synthesized.[12][13][14] Xenon is used in flash lamps[15] and arc lamps,[16] and as a general anesthetic.[17] The first excimer laser design used a xenon dimer molecule (Xe2) as the lasing medium,[18] and the earliest laser designs used xenon flash lamps as pumps.[19] Xenon is also used to search for hypothetical weakly interacting massive particles[20] and as a propellant for ion thrusters in spacecraft.[21] Naturally occurring xenon consists of seven stable isotopes and two long-lived radioactive isotopes. More than 40 unstable xenon isotopes undergo radioactive decay, and the isotope ratios of xenon are an important tool for studying the early history of the Solar System.[22] Radioactive xenon-135 is produced by beta decay from iodine-135 (a product of nuclear fission), and is the most significant (and unwanted) neutron absorber in nuclear reactors.[23]
Penn-bloodh lowen, Shishir!langbot langbot
Corals are marine invertebrates within the class Anthozoa of the phylum Cnidaria. They typically form compact colonies of many identical individual polyps. Coral species include the important reef builders that inhabit tropical oceans and secrete calcium carbonate to form a hard skeleton. A coral "group" is a colony of very many genetically identical polyps. Each polyp is a sac-like animal typically only a few millimeters in diameter and a few centimeters in height. A set of tentacles surround a central mouth opening. Each polyp excretes an exoskeleton near the base. Over many generations, the colony thus creates a skeleton characteristic of the species which can measure up to several meters in size. Individual colonies grow by asexual reproduction of polyps. Corals also breed sexually by spawning: polyps of the same species release gametes simultaneously overnight, often around a full moon. Fertilized eggs form planulae, a mobile early form of the coral polyp which, when mature, settles to form a new colony. Although some corals are able to catch plankton and small fish using stinging cells on their tentacles, most corals obtain the majority of their energy and nutrients from photosynthetic unicellular dinoflagellates of the genus Symbiodinium that live within their tissues. These are commonly known as zooxanthellae and give the coral color. Such corals require sunlight and grow in clear, shallow water, typically at depths less than 60 metres (200 feet; 33 fathoms). Corals are major contributors to the physical structure of the coral reefs that develop in tropical and subtropical waters, such as the Great Barrier Reef off the coast of Australia. These corals are increasingly at risk of bleaching events where polyps expel the zooxanthellae in response to stress such as high water temperature or toxins. Other corals do not rely on zooxanthellae and can live globally in much deeper water, such as the cold-water genus Lophelia which can survive as deep as 3,300 metres (10,800 feet; 1,800 fathoms).[1] Some have been found as far north as the Darwin Mounds, northwest of Cape Wrath, Scotland, and others off the coast of Washington state and the Aleutian Islands. Taxonomy[edit] The classification of corals has been discussed for millennia, owing to having similarities to both plants and animals. Aristotle's pupil, Theophrastus, described the red coral, korallion, in his book on stones, implying it was a mineral, but he described it as a deep-sea plant in his Enquiries on Plants, where he also mentions large stony plants that reveal bright flowers when under water in the Gulf of Heroes.[2] Pliny the Elder stated boldly that several sea creatures including sea nettles and sponges "are neither animals nor plants, but are possessed of a third nature (tertia natura)".[3] Petrus Gyllius copied Pliny, introducing the term zoophyta for this third group in his 1535 book On the French and Latin Names of the Fishes of the Marseilles Region; it is popularly but wrongly supposed that Aristotle created the term.[3] Gyllius further noted, following Aristotle, how hard it was to define what was a plant and what was an animal.[3] The Babylonian Talmud refers to coral among a list of types of trees, and the 11th century French commentator Rashi describes it as "a type of tree (מין עץ) that grows underwater that goes by the (French) name "coral."[4] The Persian polymath Al-Biruni (d.1048) classified sponges and corals as animals, arguing that they respond to touch.[5] Nevertheless, people believed corals to be plants until the eighteenth century, when William Herschel used a microscope to establish that coral had the characteristic thin cell membranes of an animal.[6] Presently, corals are classified as species of animals within the sub-classes Hexacorallia and Octocorallia of the class Anthozoa in the phylum Cnidaria.[7] Hexacorallia includes the stony corals and these groups have polyps that generally have a 6-fold symmetry. Octocorallia includes blue coral and soft corals and species of Octocorallia have polyps with an eightfold symmetry, each polyp having eight tentacles and eight mesenteries. The group of corals is paraphyletic because the sea anemones are also in the sub-class Hexacorallia. Systematics[edit] The delineation of coral species is challenging as hypotheses based on morphological traits contradict hypotheses formed via molecular tree-based processes.[8] As of 2020, there are 2175 identified separate coral species, 237 of which are currently endangered,[9] making distinguishing corals to be the utmost of importance in efforts to curb extinction.[8] Adaptation and delineation continues to occur in species of coral[10] in order to combat the dangers posed by the climate crisis. Corals are colonial modular organisms formed by asexually produced and genetically identical modules called polyps. Polyps are connected by living tissue to produce the full organism.[11] The living tissue allows for inter module communication (interaction between each polyp),[11] which appears in colony morphologies produced by corals, and is one of the main identifying characteristics for a species of coral.[11] There are 2 main classifications for corals: 1. Hard coral (scleractinian and stony coral)[12] which form reefs by a calcium carbonate base, with polyps with 6 stiff tentacles,[13] and 2. Soft coral (Alcyonacea and ahermatypic coral)[12] which are bendable and formed by a colony of polyps with 8 feather like tentacles.[13] These two classifications arose from differentiation in gene expressions in their branch tips[11] and bases that arose through developmental signaling pathways such as Hox, Hedgehog, Wnt, BMP etc. Scientists typically select Acropora as research models since they are the most diverse genus of hard coral, having over 120 species.[11] Most species within this genus have polyps which are dimorphic: axial polyps grow rapidly and have lighter coloration,[11] while radial polyps are small and are darker in coloration.[11] In the Acropora genus, gamete synthesis and photosynthesis occur at the basal polyps, growth occurs mainly at the radial polyps. Growth at the site of the radial polyps encompasses two processes: asexual reproduction via mitotic cell proliferation,[11] and skeleton deposition of the calcium carbonate via extra cellular matrix (EMC) proteins acting as differentially expressed (DE) signaling genes[11] between both branch tips and bases. These processes lead to colony differentiation, which is the most accurate distinguisher between coral species.[8] In the Acropora genus, colony differentiation through up-regulation and down-regulation of DEs.[11] Systematic studies of soft coral species have faced challenges due to a lack of taxonomic knowledge.[8] Researchers have not found enough variability within the genus to confidently delineate similar species, due to a low rate in mutation of mitochondrial DNA.[14] Environmental factors, such as the rise of temperatures and acid levels in our oceans account for some speciation of corals in the form of species lost.[11] Various coral species have heat shock proteins (HSP) that are also in the category of DE across species.[11] These HSPs help corals combat the increased temperatures they are facing which lead to protein denaturing, growth loss, and eventually coral death.[11] Approximately 33% of coral species are on the International Union for Conservation of Nature’s endangered species list and at risk of species loss.[15] Ocean acidification (rising pH levels in the oceans) is threatening the continued species growth and differentiation of corals.[11] Mutation rates of Vibrio shilonii, the reef pathogen responsible for coral bleaching, heavily outweigh the typical reproduction rates of coral colonies when pH levels rise.[16] Thus, corals are unable to mutate their HSPs and other climate change preventative genes to combat the increase in temperature and pH at a competitive rate to these pathogens responsible for coral bleaching,[16] resulting in species loss. Anatomy Anatomy of a stony coral polyp For most of their life corals are sessile animals of colonies of genetically identical polyps. Each polyp varies from millimeters to centimeters in diameter, and colonies can be formed from many millions of individual polyps. Stony coral, also known as hard coral, polyps produce a skeleton composed of calcium carbonate to strengthen and protect the organism. This is deposited by the polyps and by the coenosarc, the living tissue that connects them. The polyps sit in cup-shaped depressions in the skeleton known as corallites. Colonies of stony coral are very variable in appearance; a single species may adopt an encrusting, plate-like, bushy, columnar or massive solid structure, the various forms often being linked to different types of habitat, with variations in light level and water movement being significant.[17] The body of the polyp may be roughly compared in a structure to a sac, the wall of which is composed of two layers of cells. The outer layer is known technically as the ectoderm, the inner layer as the endoderm. Between ectoderm and endoderm is a supporting layer of gelatinous substance termed mesoglea, secreted by the cell layers of the body wall.[18] The mesoglea can contain skeletal elements derived from cells migrated from the ectoderm. The sac-like body built up in this way is attached to a hard surface, which in hard corals are cup-shaped depressions in the skeleton known as corallites. At the center of the upper end of the sac lies the only opening called the mouth, surrounded by a circle of tentacles which resemble glove fingers. The tentacles are organs which serve both for tactile sense and for the capture of food.[18] Polyps extend their tentacles, particularly at night, often containing coiled stinging cells (cnidocytes) which pierce, poison and firmly hold living prey paralyzing or killing them. Polyp prey includes plankton such as copepods and fish larvae. Longitudinal muscular fibers formed from the cells of the ectoderm allow tentacles to contract to convey the food to the mouth. Similarly, circularly disposed muscular fibres formed from the endoderm permit tentacles to be protracted or thrust out once they are contracted.[18] In both stony and soft corals, the polyps can be retracted by contracting muscle fibres, with stony corals relying on their hard skeleton and cnidocytes for defense. Soft corals generally secrete terpenoid toxins to ward off predators.[17] In most corals, the tentacles are retracted by day and spread out at night to catch plankton and other small organisms. Shallow-water species of both stony and soft corals can be zooxanthellate, the corals supplementing their plankton diet with the products of photosynthesis produced by these symbionts.[17] The polyps interconnect by a complex and well-developed system of gastrovascular canals, allowing significant sharing of nutrients and symbionts.[19] The external form of the polyp varies greatly. The column may be long and slender, or may be so short in the axial direction that the body becomes disk-like. The tentacles may number many hundreds or may be very few, in rare cases only one or two. They may be simple and unbranched, or feathery in pattern. The mouth may be level with the surface of the peristome, or may be projecting and trumpet-shaped.[18]
Nyns yw da gans Tom boos pooth.langbot langbot
24 sinne gevind in 8 ms. Hulle kom uit baie bronne en word nie nagegaan nie.