The type of filament used in tube light is that one which is thin and surrounded by an oblong metal shield.
A tubelight is generally considered a resistive load, as it primarily converts electrical energy into light and heat through the heating of a filament or gas discharge. However, it can also exhibit some inductive characteristics due to the ballast used in fluorescent tube lights, which helps regulate current. Overall, while the primary function is resistive, the presence of the ballast introduces some complexity to its load characteristics.
a tubelight consists of filaments at each of its respective ends. the function of the starter is to develop ionic discharge inside the tube to make the current flow. therefore once the tubelight is switched on and it glows. the function of the startea ceases and thus it can be removed. on removing a starter from the glowing tubelight the tubelight will continue to glow unless switched off. but once switched off the tubelight will require the starter to glow again on being switched on.
yes
The predominate liquid used inside a filament transformer is mercury. Mercury is used to keep the transformer cool when under heavy use. Mercury is a cheap and long lasting liquid.
Yes, the resistance of the filament of a light bulb is what generates enough heat to make the filament glow and produce light.
A tubelight gets fused when its filament or gas discharge tube fails, often due to factors like age, overheating, or electrical surges. When the filament inside the tube breaks, or the gas within the tube becomes depleted or contaminated, the circuit is interrupted, preventing the light from functioning. Additionally, a faulty starter or ballast can also contribute to a tubelight fusing. Regular maintenance and timely replacement can help prevent these issues.
neon
it is used to increase the voltage
tubelight
In Marathi, a tubelight is called "ट्यूबलाईट" (pronounced as "tyublight"). It is commonly used in households and commercial spaces for lighting purposes. The term is a transliteration of the English word "tubelight," reflecting its widespread usage in modern vernacular.
Vidyut prakasha parikaramu
A tubelight is generally considered a resistive load, as it primarily converts electrical energy into light and heat through the heating of a filament or gas discharge. However, it can also exhibit some inductive characteristics due to the ballast used in fluorescent tube lights, which helps regulate current. Overall, while the primary function is resistive, the presence of the ballast introduces some complexity to its load characteristics.
Tubelight : प्रकाश नलिका prakaash nalikaa
The word for "tubelight" in Sanskrit is "प्रकाशकठी" (prakāśakaṭhī).
In Telugu, a tubelight is commonly referred to as "ట్యూబ్ లైట్" (pronounced as "tube light"). This term is derived from the English name and is widely used in everyday conversation.
The main parts of a tubelight include a long glass tube, electrodes at each end, a filament or cathode, a small amount of mercury vapor, and a phosphor coating on the inside of the tube. When electricity passes through the electrodes, it excites the mercury vapor, which emits ultraviolet light. The phosphor coating then converts this ultraviolet light into visible light.
A tubelight buzzes because it is filled with an inert gas and some mercury.