It was fun actually. They have a place where the stingrays swim up to you and you're allowed to pet them. I was surprised by how they actually want to get pet. They swim up to the side of the wall and come out of the water to get your attention. Like a little water dog.
I love stingrays and nurse sharks! They're like little aqua puppies.
Edit: I remember when I was little, I always wanted to know if the aquarium we were going to had stingrays and nurse sharks (and sea urchins too, they always had sea urchins in the petting pools). They were by far my favorite part of the aquariums.
Needs clarification - do you mean a flowery, lacey, girly American electricity outlet, or a meaty, throbbing, frighteningly-erect rest-of-the-world outlet?
That will heavily depend on the surroundings, your body, and contact points.
Also, freshwater and saltwater eels approach it differently, with freshwater ones (the ones delivering those 600-800 volts) able to give out amperage of around 0,1A.
This may not seem like much, but it is actually enough to stun and paralyze a human, and this is exactly what we see here. If there's nobody to break the contact, the current will keep flowing for several more seconds, and then your heart will stop, with all the consequences it entails.
This is not true. The voltage is 3 times higher, that's part of why it's so debilitating. If the power (amperage) was 3 times higher that man would not have gotten back up. Their amperage peaks at about 1 amp, which is enough to do some damage.
There’s no given amperage coming out of the wall, it’s a product of V=IR. Given a constant resistance for the person’s body, three times the voltage does means three times the current.
“Voltage doesn’t kill you, current does” is a bad statement that’s often repeated. You don’t get current without voltage.
An eel can only generate so much power, so essentially the voltage will drop so that the power will be lower.
600V at 0,1A will just turn to, say, 100V at 0,6A if the resistance between two points will be 1667 Ohm.
To keep voltage at 600V (and subsequently deliver 0,36A) you need a power source that can deliver 3,6 times more power.
In that sense, amperage is super important. We should always consider capabilities of the power source, this is big part of electrical grid engineering.
1A amperage is a feature of saltwater eels, ones that produce electricity at much lower voltages, like 10-80V. This is a natural adaptation allowing them to maximize power output in a relatively highly conductive environment.
The freshwater eels, the ones producing 600-800V, are only able to output about 0,1A, because that's just how power works.
1A at 600V would be almost a guaranteed instakill for a human.