3. Tissue
A tissue is a group of cells working together to do a special job. A histologist is one who specializes in the study of tissues. The cells, of which the tissues are made, contain from 60 to 99 % water. Chemical reactions that are necessary for proper body function are carried on much more readily in a water solution. The water solution and other materials in which the tissues are bathed is slightly salty. It must be mentioned that an insufficiency of tissues fluid is called dehydration and an abnormal accumulation of this fluid caused a condition called edema.
Tissue classification: The 4 main groups of tissues are:
1) epithelial tissue forms elands, covers surfaces and lines cavities;
2) connective tissue holds all parts of the body in Place. This can be fat, cartilage, bone or blood. Blood sometimes is considered a sort of tissue, since it contains cells and performs many of the functions of tissues. However; the blood has many other unique characteristics;
3) nerve tissue conducts nerve impulses all over the body;
4) the muscle tissue is designed for power-producing contractions.
The surface of the body and of the tubes or passages leading to the exterior and the surface of the various cavities in the body are lined by cells which are closely approximated to each other; thus have a small amount of intercellular substance. This lining cellular layer is called epithelium. The nature and consistency of intercellular substance, the matrix, and the amount and arrangement of fibers furnish the basis for the subdivision of connective tissue into three main groups: connective tissue proper, cartilage and bone. In connective tissue the intercellular substance is soft; in cartilage it is firm, yet flexible and ela stic; in bone it is rigid due to the deposition of calcium salt in the matrix. In multicellular organisms certain cells developed to a high degree the properties of irritability and conductivity. These cells form the nervous tissues.
The nervous system of higher animals is characterized by the multiplicity of cellular forms and intercellular connections and by the complexity of its functioning.
Muscle tissue is composed of elongated cells which have the power of contracting or reducing their length. This property of contraction is ultimately a molecular phenomenon and is due to the presence of protein molecules. The following three types of muscle tissue occur in the body.
Smooth muscle tissue is found in sheet or tubes forming the walls of many hollow or tubular organs, for example the bladder, the intes tines of blood vessels. The cells forming this tissue are long spin dles with a central oval nucleus.
Striated muscle tissue is composed of cylindrical fibres often of great at length in which separate cells cannot be distinguished. Many small nuclei are found in the fibres lie just under the surface. Cardiac muscle resembles striated muscle in its structure, but smooth one in its action.
New words
liquid - æèäêîñòü
epithelial - ýïèòåëèàëüíûé
layer - ñëîé
muscle - ìûøöà
body - òåëî
flexible - ãèáêèé
elastic - ýëàñòè÷íûé
nucleus - ÿäðî
smooth - ãëàäêèé
fibre - âîëîêíî
cardiac - ñåðäå÷íûé
Àâòîð: Åëåíà Áåëèêîâà
<< Íàçàä: Cell
>> Âïåðåä: Epidermis
Ðåêîìåíäóåì èíòåðåñíûå ñòàòüè ðàçäåëà Êîíñïåêòû ëåêöèé, øïàðãàëêè:
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▪ Îáùèå îñíîâû ïåäàãîãèêè. Êîíñïåêò ëåêöèé
▪ Àäìèíèñòðàòèâíîå ïðàâî. Øïàðãàëêà
Ñìîòðèòå äðóãèå ñòàòüè ðàçäåëà Êîíñïåêòû ëåêöèé, øïàðãàëêè.
×èòàéòå è ïèøèòå ïîëåçíûå êîììåíòàðèè ê ýòîé ñòàòüå.
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Ïîñëåäíèå íîâîñòè íàóêè è òåõíèêè, íîâèíêè ýëåêòðîíèêè:
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Êîìïàíèÿ Toshiba Electronics Europe îáúÿâèëà î ðàçðàáîòêå òåõíîëîãè÷åñêîãî ïðîöåññà íîâîãî ïîêîëåíèÿ TarfSOI (Toshiba advanced RF SOI), îïòèìèçèðîâàííîãî äëÿ ïðîèçâîäñòâà ðàäèî÷àñòîòíûõ (Ð×) êîììóòàòîðîâ. ÈÑ Ð×-êîììóòàòîðîâ, èçãîòîâëåííûå ïî íîâîìó òåõíîëîãè÷åñêîìó ïðîöåññó TaRF8, òàêèå êàê íîâûå óñòðîéñòâà SP12T, îáåñïå÷èâàþò ìèíèìàëüíûé êëàññ âíîñèìûõ ïîòåðü â îòðàñëè. Ïîñòàâêè îçíàêîìèòåëüíûõ îáðàçöîâ ÈÑ Ð×-êîììóòàòîðîâ SP12T, èçãîòîâëåííûõ ïî íîâîìó òåõíîëîãè÷åñêîìó ïðîöåññó, íà÷íóòñÿ â ÿíâàðå 2016 ã.
ÈÑ Ð×-êîììóòàòîðîâ SP12T, ïðåäíàçíà÷åííûå äëÿ ñìàðòôîíîâ, èìåþò âñòðîåííûé êîíòðîëëåð MIPI-RFFE äëÿ ìîáèëüíûõ ðåøåíèé. Êîììóòàòîðû ìîãóò èñïîëüçîâàòüñÿ â óñòðîéñòâàõ, ñîîòâåòñòâóþùèõ ñòàíäàðòàì 3GPP GSM, UMTS, W-CDMA, LTE è LTE-Advanced.
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Ñîâðåìåííûå ìîáèëüíûå êîììóíèêàöèè òðåáóþò ïåðåäà÷è áîëüøèõ îáúåìîâ äàííûõ ñ âûñîêîé ñêîðîñòüþ, è ïîýòîìó ÈÑ Ð×-êîììóòàòîðîâ, èñïîëüçóåìûå â ìîáèëüíûõ óñòðîéñòâàõ è ñìàðòôîíàõ, äîëæíû ïîääåðæèâàòü ðàáîòó ñ íåñêîëüêèìè ïîðòàìè è îáëàäàòü óëó÷øåííûìè ðàäèî÷àñòîòíûìè õàðàêòåðèñòèêàìè. Ñíèæåíèå âíîñèìûõ ïîòåðü ñ÷èòàåòñÿ ïðè ýòîì îñîáåííî âàæíûì ôàêòîðîì, ïîñêîëüêó ýòî ïîçâîëÿåò ñíèçèòü ïîòåðè ìîùíîñòè ïåðåäà÷è ðàäèîñèãíàëà, òåì ñàìûì óâåëè÷èâàÿ âðåìÿ àâòîíîìíîé ðàáîòû ìîáèëüíûõ óñòðîéñòâ.
Toshiba ðàçðàáàòûâàåò âûñîêîýôôåêòèâíûå ÈÑ Ð×-êîììóòàòîðîâ íà ñîáñòâåííûõ ïðîèçâîäñòâåííûõ ìîùíîñòÿõ ñ èñïîëüçîâàíèåì òåõíîëîãèè SOI-CMOS, êîòîðàÿ ïîçâîëÿåò èíòåãðèðîâàòü àíàëîãîâûå è äèñêðåòíûå ñõåìû. Ðåàëèçàöèÿ âñåõ àñïåêòîâ ïðîèçâîäñòâåííîãî ïðîöåññà îò ðàçðàáîòêè òåõíîëîãè÷åñêîãî ïðîöåññà Ð×-êîìïîíåíòîâ äî ïðîåêòèðîâàíèÿ è ïðîèçâîäñòâà ìèêðîñõåì Ð×-êîììóòàòîðîâ ïîçâîëÿåò êîìïàíèè Toshiba ñòðåìèòåëüíî ðàçâèâàòü òåõíîëîãèþ SOI-CMOS íà îñíîâå ðåçóëüòàòîâ ðàçðàáîòêè ñîáñòâåííûõ ÈÑ Ð×-êîììóòàòîðîâ. Ðàáîòà â êà÷åñòâå ïðîèçâîäèòåëÿ èíòåãðèðîâàííûõ óñòðîéñòâ (IDM) ïîçâîëÿåò êîìïàíèè áûñòðî ñîçäàâàòü íîâûå òåõíîëîãèè ïðîèçâîäñòâåííûõ ïðîöåññîâ, ïðèãîäíûå äëÿ âûïóñêà ñåðèéíûõ èçäåëèé, è âûâîäèòü íà ðûíîê ïðîäóêöèþ, èçãîòîâëåííóþ ñ ïðèìåíåíèåì ñàìûõ ñîâðåìåííûõ òåõíîëîãè÷åñêèõ ïðîöåññîâ.
Êîìïàíèÿ ïðîäîëæèò ðàáîòó íàä ïîâûøåíèåì ýôôåêòèâíîñòè ñîáñòâåííîãî òåõíîëîãè÷åñêîãî ïðîöåññà TarfSOI è óäîâëåòâîðåíèå ðûíî÷íîãî ñïðîñà è ïîòðåáíîñòåé çàêàç÷èêîâ â ÈÑ Ð×-êîììóòàòîðîâ, ïðåäñòàâëÿÿ èçäåëèÿ íà îñíîâå íîâåéøèõ òåõíîëîãèé ðàíüøå äðóãèõ ïðîèçâîäèòåëåé.
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Äðóãèå èíòåðåñíûå íîâîñòè:
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▪ Ðàêåòà Blue Origin
▪ Ýëåêòðîííûé ïëàñòûðü ñîîáùèò î çäîðîâüå ïàöèåíòà
▪ Ìîëîêî íà÷àëè ïèòü íà Óðàëå
▪ Wavecom âêëþ÷àåò ïîääåðæêó èíòåðïðåòàòîðà Lua
Ëåíòà íîâîñòåé íàóêè è òåõíèêè, íîâèíîê ýëåêòðîíèêè
Èíòåðåñíûå ìàòåðèàëû Áåñïëàòíîé òåõíè÷åñêîé áèáëèîòåêè:
▪ ðàçäåë ñàéòà Îõðàíà è áåçîïàñíîñòü. Ïîäáîðêà ñòàòåé
▪ ñòàòüÿ Ñõîäèòü äî âåòðó. Êðûëàòîå âûðàæåíèå
▪ ñòàòüÿ Â êàêîé ñòðàíå çàïðåùåíî ðàáîòàòü ñëèøêîì õóäûì òîï-ìîäåëÿì? Ïîäðîáíûé îòâåò
▪ ñòàòüÿ Ñëåñàðü ïî êîíòðîëüíî-èçìåðèòåëüíûì ïðèáîðàì. Äîëæíîñòíàÿ èíñòðóêöèÿ
▪ ñòàòüÿ Êàê ñäåëàòü ïðîñòîé ïðîãðàììàòîð äëÿ PIC-îâ è AVR-îâ. Ýíöèêëîïåäèÿ ðàäèîýëåêòðîíèêè è ýëåêòðîòåõíèêè
▪ ñòàòüÿ Ìíîãîëèêàÿ êàðòà. Ñåêðåò ôîêóñà
Îñòàâüòå ñâîé êîììåíòàðèé ê ýòîé ñòàòüå:
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