No. It uses 220 volts.
No you can't use a 415v motor in a 240 v socket.
240 v doesn't use any electricity. v is a symbol for voltage which is one of the properties of electricity. How much is used is determind by load. 240 v simply is how much pressure the electrons are being pushed through the circuit with.
European lamps work on 230 v (240 v in the UK). In the USA the supply is 120/240 v with low-power appliances like lights running on 120 v. But 240 v is usually available in a US house so see an electrician.
i think 240 vo uses less
Yes
Technically two-phase has not been used for about 100 years, but a 240 v supply comes from a 240-v single-phase transformer. One of those with a centre-tap is often used to provide two 120 v supplies as well as a 240 v supply, and that's a split-phase supply. Although 240 v bulbs are universal in some countries like the UK, bulbs are normally made for 110-120 v in USA/Canada.
If the appliance is 220 volt 60 Htz, yes it will work perfectly in the U.S. plugged into a 240 volt outlet.
All our electricity supply is nominally 230v and practically 240 v. At my home for example it's usually in the range 242-252 v. We have recessed lights but all the bulbs you can buy are marked 240 v.
If it is a 240 v delta motor it needs a 240 v three-phase supply, which has 139 v between line and neutral, so 440 v would not be acceptable.
Yes, you can use a mutual (2-winding) transformer as an autotransformer, by connecting the two windings in series. For example, if you have a 240:120 V transformer, connecting the two windings in series and supplying the 240-V winding with 240 V can give you a secondary voltage of 360 V. But you must take into account the polarity of the transformer, and realise its capacity will change.
You don't use any high-voltage 'lead' to provide 120 V. To obtain a 240/120-V supply from a three-phase transformer, one of the transformer's secondary 240-V windings has a grounded centre tap which provides the neutral point. The potential difference across the entire winding is then 240 V, while the potential difference between either end and the centre tap is 120 V.
The household supply in the UK is 240 V and is AC (alternate current).