Something something typical US circuits can deliver less power than typical Euro circuits. Not a lot less though. Turns out it depends, but the power rating in the EU is in theory usually about 2x that of US circuits, assuming similar current draws.
I used to own a $15 plastic electric kettle, but it died after a year or two. When I went to target to get a new (hopefully better) one, I realized I could instead buy a plug-in induction plate on sale for $50, and a plain stainless steel kettle that somehow cost only $1.50 (less than the shitty bread that I was also buying? how?). The induction plate was honestly one of the best purchases I’ve made in a long time. Sure, I have to wear earplugs to tolerate the high-pitched scream that the frequency driver makes, but it boils water just as well as an electric kettle and is also soooo much nicer to cook on than the resistive curlicue burners that came with my apartment.
Not the ones I was thinking of. Great, you found a cheap kettle at mediamarkt, good for you. Here’s a 1500W one, also not the one I was thinking of. I was thinking of one I once had. The one that’s the reason why my current one is 3000W and wide enough to not risk tipping over.
People who buy consumer electronics at Amazon from made up Chinese throwaway brands are beyond rescue.
They don’t care if their products are unsafe because they will never face consequences.
You can’t even be sure if the material is food grade.
MediaMarkt does, because it’s their own brand and would damage their reputation and financial bottom line
regular US outlets are 120V. regular EU outlets are 240V. P=VI, so to produce the same amount of power as a 240V kettle, a 120V kettle needs to draw twice as much current.
the gauge of a wire determines how much current it can carry without setting insulation on fire. home outlets are typically wired for 15A, around the world. so in EU, 15A service can deliver twice as much power since that’s 15A of current at 240V = 3.6kW, while in the US at 120V = 1.8kW.
At least here in Australia, 15A circuits are not very common. Only one of the places I’ve ever lived had a 15A outlet in a shed, which was likely installed by the previous owner for running a welder or plasma cutter, or some other high peak power tool like that. 3.6kW is massive overkill for general household use.
The standard circuit here is 10A, which gives you 2.4kW to play with. It’s been a while, but if I recall correctly that was part of the point Technology Connections was making - that the difference isn’t actually that great between 120 and 240V countries in practice. The change to boiling time from an electric kettle was pretty inconsequential between the two.
I believe he postulated that the real reason Americans don’t have electric kettles was that they didn’t have much need for them. They mostly don’t drink tea, and their coffee is largely prepared using drip coffee makers that heat their own water.
I didn’t bring my 3Kw UK kettle over because I heard it would probably blow the circuit. But my Australian colleague who moved back over here brought his UK toaster and it actually did blow the circuit.
Something something typical US circuits can deliver less power than typical Euro circuits.
Not a lot less though.Turns out it depends, but the power rating in the EU is in theory usually about 2x that of US circuits, assuming similar current draws.I used to own a $15 plastic electric kettle, but it died after a year or two. When I went to target to get a new (hopefully better) one, I realized I could instead buy a plug-in induction plate on sale for $50, and a plain stainless steel kettle that somehow cost only $1.50 (less than the shitty bread that I was also buying? how?). The induction plate was honestly one of the best purchases I’ve made in a long time. Sure, I have to wear earplugs to tolerate the high-pitched scream that the frequency driver makes, but it boils water just as well as an electric kettle and is also soooo much nicer to cook on than the resistive curlicue burners that came with my apartment.
A European 15 buck plastic kettle will likely also not pull more than 1500W. And probably only hold a litre. And still be overpriced.
Even a 10€ (sales tax already included)Kettle pulls 2200W and holds 1,7 Litres.
I love how confidently you say wrong stuff. It’s not like you could research this in one minute
https://www.mediamarkt.de/de/product/_ok-owk-103-b-wasserkocher-weiss-2885881.html
Not the ones I was thinking of. Great, you found a cheap kettle at mediamarkt, good for you. Here’s a 1500W one, also not the one I was thinking of. I was thinking of one I once had. The one that’s the reason why my current one is 3000W and wide enough to not risk tipping over.
People who buy consumer electronics at Amazon from made up Chinese throwaway brands are beyond rescue.
They don’t care if their products are unsafe because they will never face consequences.
You can’t even be sure if the material is food grade.
MediaMarkt does, because it’s their own brand and would damage their reputation and financial bottom line
It’s a lot less. Half of what an European delivers. So your electric kettle takes twice the time
https://www.electricaltechnology.org/2025/02/americans-gas-kettles-europe-electric-kettles.html
Technology Connections did a video on this rule.
regular US outlets are 120V. regular EU outlets are 240V. P=VI, so to produce the same amount of power as a 240V kettle, a 120V kettle needs to draw twice as much current.
the gauge of a wire determines how much current it can carry without setting insulation on fire. home outlets are typically wired for 15A, around the world. so in EU, 15A service can deliver twice as much power since that’s 15A of current at 240V = 3.6kW, while in the US at 120V = 1.8kW.
so EU kettles are twice as powerful, typically.
At least here in Australia, 15A circuits are not very common. Only one of the places I’ve ever lived had a 15A outlet in a shed, which was likely installed by the previous owner for running a welder or plasma cutter, or some other high peak power tool like that. 3.6kW is massive overkill for general household use.
The standard circuit here is 10A, which gives you 2.4kW to play with. It’s been a while, but if I recall correctly that was part of the point Technology Connections was making - that the difference isn’t actually that great between 120 and 240V countries in practice. The change to boiling time from an electric kettle was pretty inconsequential between the two.
I believe he postulated that the real reason Americans don’t have electric kettles was that they didn’t have much need for them. They mostly don’t drink tea, and their coffee is largely prepared using drip coffee makers that heat their own water.
I didn’t bring my 3Kw UK kettle over because I heard it would probably blow the circuit. But my Australian colleague who moved back over here brought his UK toaster and it actually did blow the circuit.