Aiki na taurari mai yadda ake amfani da zafiya a kan filamen da ke faruwa ne a kan karamin kula a kan filamen, ana kiranta Taurari Mai Zafiya.
Idan mutum ya kare wani abu da sauran zafiya, daidai a cikin abu na zama da zafiya. Idan abu ba ta faruwa bane, daidai na zama da zafiya a kan karamin kula a kan filamen, ana kiranta taurari mai zafiya.
Wannan zafiya na da takamoli daban-daban. Wata babban babban takamoli na da ita a kan masana tsohon birnin da ake iya gudanar. Wannan zafiya na da takamoli daban-daban. Wannan zafiya na da takamoli daban-daban.
Mai zafiya na nufin aiki da zafiya a kan abu da ke faruwa. Wannan taurari mai zafiya na yi aiki a kan haka. Yawanci a nan ake amfani da karamin kula a kan filamen da ke tsirriyar da ke faruwa ne a kan filamen, ana kiranta taurari mai zafiya.
Ana kira a lokacin da Thomas Edison ya kafa taurari mai zafiya, amma tarihi ya kai ne ya kiyaye. An samun kungiyoyi da suka yi aiki da suka kawo wuraren taurari mai zafiya a matsayin prototype idan mafi karatu. Duk da haka, Joseph Wilson Swan ya kafa farkon patent a kan taurari mai zafiya. Ba'ada wannan, Edison da Swan sun ji gaba su don kafa taurari mai zafiya a kan gine-gine.
Filamen na kara a kan labaran kayan karami. Kayan karami na kara a kan foot contact, kuma kayan karami na biye na kara a kan base na kaya. Kayan karami biyu na kara a kan glass support na kara a kan kofin taurarin. Kayan karami biyu na kara a kan glass support, sun amfani da su don kara filamen a kan gabashin. Foot contact na kara a kan base na kaya da karamin kusa. Kafin taurarin na kara a kan kofin taurarin. Kofin taurarin na kara da gas inerti ko kuma vacuum, idan rating na taurarin mai zafiya.
Filamen na kara a kan kofin taurarin mai zafiya. Kofin taurarin na kara a kan filamen don kara filamen daga hawa na jiragen. Kofin taurarin na kara da gas inerti ko kuma vacuum, idan rating na taurarin mai zafiya.
Kofin taurarin na kara da gas inerti ko kuma vacuum, idan rating na taurarin mai zafiya. Gas inerti na kara a kan kofin taurarin, amma an samu krypton a kan kofin taurarin. Krypton na kara a kan kofin taurarin saboda yawan molecular weight na krypton gas.
Gas inerti na kara a kan kofin taurarin, amma an samu krypton a kan kofin taurarin. Krypton na kara a kan kofin taurarin saboda yawan molecular weight na krypton gas. Amma an samu krypton a kan kofin taurarin saboda yawan molecular weight na krypton gas.
An samu kofin taurarin da gas inerti a kan rating na taurarin mai zafiya. Amma an samu krypton a kan kofin taurarin saboda yawan molecular weight na krypton gas. Amma an samu krypton a kan kofin taurarin saboda yawan molecular weight na krypton gas.
An samu kofin taurarin da gas inerti a kan rating na taurarin mai zafiya. Amma an samu krypton a kan kofin taurarin saboda yawan molecular weight na krypton gas. Amma an samu krypton a kan kofin taurarin saboda yawan molecular weight na krypton gas.
A yanzu, an samu taurari mai zafiya a kan wattage ratings kamar 25, 40, 60, 75, 100 da 200 watts. An samu taurari mai zafiya a kan shapes kamar round. An samu taurari mai zafiya a kan materials kamar carbon, tantalum, da tungsten. Carbon na kara a kan filamen, amma tungsten na kara a kan filamen a yanzu.
Melting point na carbon filament na about 3500oC, amma operating temperature na carbon filament na about 1800oC. Saboda haka, evaporation na carbon filament na yake da damar. Taurari mai zafiya da filamen na carbon na basa ne saboda evaporation. Darkening na taurari mai zafiya na faruwa idan molecules na filamen na deposit a kan inner wall na kofin taurarin saboda evaporation na filamen.
Efficiency na carbon filament lamp na about 4.5 lumens per watt. Tantalum na kara a kan filamen, amma efficiency na tantalum filament lamp na about 2 lumens per watt. Saboda haka, tantalum na kara a kan filamen element.
Material na filamen da ake amfani da shi a yanzu na tungsten saboda high luminous efficacy. Tungsten na kara a kan filamen saboda yawan luminous efficacy. Tungsten na kara a kan filamen saboda yawan luminous efficacy. Tungsten na kara a kan filamen saboda yawan luminous efficacy.
Saboda melting point na tungsten na kara a kan filamen saboda yawan temperature. Saboda melting point na tungsten na kara a kan filamen saboda yawan temperature. Saboda melting point na tungsten na kara a kan filamen saboda yawan temperature. Mechanical strength na tungsten filament na kara a kan filamen saboda yawan vibrations.
Duk da technology na manufacturing, har tura na taurari mai zafiya na da approximate lifetime. Saboda evaporation na filamen, kofin taurarin na zama da darkening. Saboda evaporation na filamen, filamen na zama da thinner, kuma filamen na zama da less luminous efficient, sannan filamen na zama da broken. Voltage fluctuations na power supply line na affect performance na taurarin mai zafiya.
Luminous efficacy na taurari mai zafiya na directly proportional to square of supply voltage, amma lifetime na taurari mai zafiya na inversely proportional to 13th to 14th power of supply voltage. Advantages na taurari mai zafiya na cheap enough and suitable for lighting at small areas. Amma taurari mai zafiya ba su energy efficient, sannan about 90% of input electrical energy na lost as heat.
An samu taurari mai zafiya a kan shapes and sizes kamar PS30, T12, R40. Based on availability of wattage, taurari mai zafiya na common a kan market with 25, 40, 60, 75, 100, 150 and 200W. Ana amfani da table a kan important data about the taurari mai zafiya.
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