Grammar is important. When you're speaking colloquially and say "I'm the one paying for this bitch", make sure she doesn't think you're saying "I'm the one paying for this, bitch."
Don't get implants, hun. You don't want to start buying bras.Christie Brinkley..
I hope I look this good at 62. Probably won't happen without implants, though.
Nah...they're not for me. I only want boobies if they're in my face.Don't get implants, hun. You don't want to start buying bras.
Omg. They're singing New York twice not as a musical device but as a proper address.Well.... bacon makes everything better?
Start spreading the news.
I'm leaving today.
I want be a part of it.
New York New York.
Do they make bras that fit your face?Nah...they're not for me. I only want boobies if they're in my face.
Well, remember this guy?Do they make bras that fit your face?
Well, that literally depends on the element. A uranium atom is 238 times more massive than a hydrogen atom.How many atoms would a single element need to be visible to the naked eye, and would such an element be stable?
Also, what is "stable"? Hydrogen can exist just fine as a gas but it's still highly flamable, but mercury exists as a metalic liquid at normal temperatures.Well, that literally depends on the element. A uranium atom is 238 times more massive than a hydrogen atom.
Plus, you could have all the hydrogen on Earth all around you and you still wouldn't see it.Also, what is "stable"? Hydrogen can exist just fine as a gas but it's still highly flamable, but mercury exists as a metalic liquid at normal temperatures.
Depends on how tight you compress it. Or cool it, I guess. Hydrogen turns liquid around 33 Kelvin.Plus, you could have all the hydrogen on Earth all around you and you still wouldn't see it.
I just assumed a single atom so large you could see it could be easily messed with, from as simple as it dissipating to as dangerous as exploding. I mean, what would happen if I were to just TAP a single element the size of a cheese-ball? Nothing? Something?Also, what is "stable"? Hydrogen can exist just fine as a gas but it's still highly flamable, but mercury exists as a metalic liquid at normal temperatures.
Well, again, depends on the element and the state (temperature). I mean, iron is an element, and a cheese-ball sized chunk of near-pure room temperature iron would not really care if you tapped it.I just assumed a single atom so large you could see it could be easily messed with, from as simple as it dissipating to as dangerous as exploding. I mean, what would happen if I were to just TAP a single element the size of a cheese-ball? Nothing? Something?
Yes. Although I was mostly (and roundaboutly) pointing out that we can't actually see with the naked eye the most abundant element right in front of our face.Depends on how tight you compress it. Or cool it, I guess. Hydrogen turns liquid around 33 Kelvin.
I think what you are asking is how many protons would an atom need to have to be visible to the naked eye?I just assumed a single atom so large you could see it could be easily messed with, from as simple as it dissipating to as dangerous as exploding. I mean, what would happen if I were to just TAP a single element the size of a cheese-ball? Nothing? Something?
....YUP-I mixed that up something wrong. Thought the single units of electrical mass energy that are protons/electrons/neutrons were the atoms but here we are.I think what you are asking is how many protons would an atom need to have to be visible to the naked eye?
OH WELL IN THAT CASE....YUP-I mixed that up something wrong. Thought the single units of electrical mass energy that are protons/electrons/neutrons were the atoms but here we are.
I figured, also I read a 1000th element would fragment so I guess we won't know.OH WELL IN THAT CASE
I don't know what the fuck it would be, or how many protons/neutrons/electrons it would have, but I'm pretty sure it would be radioactive as fuck.
So, if we were somehow, no matter how unlikely, able to create an atom with enough valence shells to be visible to the naked eye, it'd be unstable as hell and would likely almost instantly and violently react to anything that touched it, to the detriment of both.Cesium is one of the most reactive elements known, partially because its atoms are so large. Cesium's lone valence electron is so far away from the nucleus on average that it is very easily removed. The electron is taken from cesium by other substances in violent chemical reactions. Cesium bursts into flames on contact with oxygen in air. Water and even ice reacts more violently with cesium than any of the other common metals:
2 Cs(s) + 2 H2O()2 CsOH(aq) + H2(g)
TIL there is a State Key Laboratory of Explosion Science and Technology.http://antoine.frostburg.edu/chem/senese/101/periodic/faq/what-atom-is-largest.shtml
So, if we were somehow, no matter how unlikely, able to create an atom with enough valence shells to be visible to the naked eye, it'd be unstable as hell and would likely almost instantly and violently react to anything that touched it, to the detriment of both.
The mug *with* URL? Tss, poser, the original just had the logoThe parking lot at my work this morning. Schools are closed and we apparently open late (10 am). But I was here at 6:30 like normal, damn it!
Oh, and here's my Dallas Cowboys/geek shrine on my desk. Notice the signed picture of @Bumble the Boy Wonder.
Yes.Jealous.
I fucking love that stupid pictureThe parking lot at my work this morning. Schools are closed and we apparently open late (10 am). But I was here at 6:30 like normal, damn it!
Oh, and here's my Dallas Cowboys/geek shrine on my desk. Notice the signed picture of @Bumble the Boy Wonder.
Reverse in fact, I asked something along the lines of are there thermostats that could keep any liquid in them and my father was confused.I'm guessing that when you said, "Turn up the thermos, I'm cold" your parents gave you a thermos of hot soup solving the problem even though they didn't understand your request.