@fossilesque@mander.xyzM to Science Memes@mander.xyzEnglish • 9 months agoSecondsmander.xyzimagemessage-square78fedilinkarrow-up1742arrow-down110
arrow-up1732arrow-down1imageSecondsmander.xyz@fossilesque@mander.xyzM to Science Memes@mander.xyzEnglish • 9 months agomessage-square78fedilink
minus-square@mkwt@lemmy.worldlinkfedilinkEnglish43•9 months agoI think a lot of people understand the concept of light-seconds, which can measure distance in seconds. Allow me to introduce the gravity-second. 1 gravity-second of mass-energy is enough mass-energy to have a Schwarzchild radius of 2 light-seconds.
minus-square@pythonoob@programming.devlinkfedilinkEnglish21•9 months agoI get what you’re saying but am still too dumb to understand it lol
minus-square@davidgro@lemmy.worldlinkfedilinkEnglish34•9 months agoSize of a black hole. Certain mass = certain distance Distance = seconds Therefore mass = seconds
minus-square@uis@lemm.eelinkfedilinkEnglish9•9 months agoThen I don’t even want to be in same solar system with millisecond heavy object.
minus-square@davidgro@lemmy.worldlinkfedilinkEnglish9•9 months agoYou most certainly don’t, that’s a radius of about 300km (186 miles) and a mass of 101 suns. Even if you meant microsecond, that’s 1/10 of the sun, and would be very disruptive.
I think a lot of people understand the concept of light-seconds, which can measure distance in seconds.
Allow me to introduce the gravity-second. 1 gravity-second of mass-energy is enough mass-energy to have a Schwarzchild radius of 2 light-seconds.
I get what you’re saying but am still too dumb to understand it lol
Size of a black hole.
Certain mass = certain distance
Distance = seconds
Therefore mass = seconds
Then I don’t even want to be in same solar system with millisecond heavy object.
You most certainly don’t, that’s a radius of about 300km (186 miles) and a mass of 101 suns.
Even if you meant microsecond, that’s 1/10 of the sun, and would be very disruptive.