Privacy policy

Privacy Policy

Your privacy is important to us. It is yuvi-studypoint.blogspot.com's policy to respect your privacy regarding any information we may collect from you across our website, https://yuvi-studypoint.blogspot.com/, and other sites we own and operate.

PERSONAL INFORMATION

We only ask for personal information when we truly need it to provide a service to you. We collect it by fair and lawful means, with your knowledge and consent. We also let you know why we’re collecting it and how it will be used.
We only retain collected information for as long as necessary to provide you with your requested service. What data we store, we’ll protect within commercially acceptable means to prevent loss and theft, as well as unauthorized access, disclosure, copying, use or modification.

VIEWERS PRIVACY

We don’t share any personally identifying information publicly or with third-parties, except when required to by law.
Our website may link to external sites that are not operated by us. Please be aware that we have no control over the content and practices of these sites, and cannot accept responsibility or liability for their respective privacy policies.

TERMS & CONDITIONS

You are free to refuse our request for your personal information, with the understanding that we may be unable to provide you with some of your desired services.
Your continued use of our website will be regarded as acceptance of our practices around privacy and personal information.

QUERIES OF VIEWERS

If you have any questions about how we handle user data and personal information, feel free to contact us.
This policy is effective as of 6 September 2019.

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NBFM & WBFM (Narrow band frequency modulation & Wide band frequency modulation) simple explanation. By Yuvi - Study Point

Hey everyone, today we are going to learn about NBFM & WBFM (Narrowband frequency modulation & Wideband frequency modulation) in simple or easy way. So, without wasting any time lets get started. The information about NBFM & WBFM When the spectrum's efficiency is important or it is required then we use NBFM (Narrowband frequency modulation) is used. But when better signal quality is required or when it is important then we use WBFM (Wideband frequency modulation). The term NBFM is used for those applications where the modulation index is less than or equal to 1. And the term WBFM is used for those applications where the modulation index is greater than or equal to 1. Now, let's see more difference between Narrow band frequency modulation(NBFM) and Wideband frequency modulation(WBFM). The term narrow-band and wide-band refer to the actual radio channel bandwidth. The purpose or advantage of using NBFM (Narrowband frequency modulation) The purpo...

Air Preheater, Superheater & Reheater simple learning. By Yuvi- Study Point

Hey everyone, today we are going to understand Air preheater, Superheater, and reheater in a simple or easy way. So, without wasting any time lets get started. Why air preheater is required? The entire heat of the flue gases cannot be recovered by the help of an economizer. So, air preheater is also required to recover some of the heat through the flue gases. The boilers efficiency is also increased by 1% with the help of air preheater. {NOTE: If you guys don't know about the economizer then go through this link which is shown below. Because in this lecture video I have properly explained the economizer in a simple way.} Economizer video link. https://youtu.be/scxizKi7kZQ And check out this blog if you want to simply know about it in writing. https://www.blogger.com/u/1/blogger.g?blogID=8839271828242826805#editor/target=post;postID=1907393019648483083;onPublishedMen The information about air preheaters? Now, back to the point. The ...

RVDT (Rotary variable differential transformer or transducer) simple explanation. By Yuvi - Study Point

Hey everyone, today we are going to simply learn about RVDT (Rotary variable differential transformer). So, without wasting any time lets get started. RVDT is a passive transducer which means it requires an external power source. Its designing is same as like LVDT (Linear variable differential transformer o transducer) but the main dissimilarity is that RVDT has a cam-type core or we can say rotary ferromagnetic core which means the shape of the core is different because LVDT consists or employs flexible iron core for displacement. And by the help of shaft, this core will turn or rotate among the two windings of the transformer. The shape of an RVDT is cam-shaped. Three conditions which occur is RVDT is ~ *when the core or shaft is placed at the null position then the induced e.m.f in secondary windings are similar as well as revers in phase. E0 = E1- E2 = 0 *When the core rotates in a clockwise direction, in this the more section of the core will enter ...

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