shell type core can be used
No but he can talk in some other transformer generations
It is because if we use a plastic as a core of the transformer then induced emf can to be produced also generated heat will damage the plastic .
Because the verb "can" does not have an infinitive (there is no such thing as "to can"), the verb uses a periphrastic or phrasal replacement instead, "to be able (to)." Thus, in the future since you cannot say "will can," instead we say "will be able (to)."
You can use: manage and succeed.
They move to the back of the machine, because they are not clearly visible when the transformer is not in car mode, so no one would be able to sit in the seat while the transformer is transforming
Suggestions: It is able It has the power to It is within its ability to It is not unable (haha)
I don't see why you wouldn't be able to take one.
You might be able to use words like 'left', or 'departed'.
You will be able to find out the polarities of the windings. You can just put a digital meter on one winding and then touch the battery to the other side to see which polarity it has.
It depends entirely on what has happened to the transformer. Technically, transformers are nothing more than wires wrapped around an iron core. If the wires orf the core are physically damaged, the transformer cannot be salvaged. If the transformer ASSEMBLY has any solid state (transistors or other electronic components) and you can find adequate replacement components, you MAY be able to repair the system. Without knowing more information it's impossible to make any valuable contribution.
The standard residential nominal voltage in the UK is 230 V (-6%/+10%). So, for the purpose of selecting a transformer, a 1:2 ratio, 120/240 V, transformer will be an appropriate choice.The capacity (volt ampere rating) of the transformer must match or exceed the power rating of the proposed load. You should be aware, though, that transformers will not change the frequency of the supply, only its voltage.Another thing to be considered is the transformer's country of manufacture and where you intend to use it. For example, if the transformer is manufactured in the US, then it will be designed to operate at a frequency of 60 Hz.On the other hand, if it is manufactured in Europe, then it will be designed to operate at 50 Hz.A transformer designed to operate at 60 Hz will overheatif it is operated at 50 Hz, whereas a transformer designed to operate at 50 Hz will operate without overheating if operated at 60 Hz.This means that you will be able to operate a European transformer in the US without any difficulty, but operating a US transformer in Europe will result in overheating -unless it is operated BELOW its rated primary/secondary voltage.So if you intend operating a US made transformer in Europe, then you should obtain a 1:2 ratio transformer, but one rated at, say, 240/480 V. This will then operate without overheating at 120/240 V.
It depends on the purpose - do you want the transformer to be low loss? As small as possible? to be able to withstand large power surges? as quiet as possible? To be able to operate for a wider than normal range of frequencies?Power transformer design is a very big topic. Many engineers spend their entire careers dedicated to optimizing transformers for specific purposes.