I got so much done today I finally sorted out the clothing I don't wear anymore to give to charity or throw away I folded the stuff that was scattered around the place I painted something on a canvas for the first time ever, and failed miserably. I washed a T-shirt and a dress.
And I haven't slept since yesterday, so this is interesting.
The more number on people might be the including those who choose to remain invisible, and the less people at the next instant is when the invisible people who are temporarily showing become invisible again.
LOL. Yes but you know what invisible means in terms of chatting/presence on Internet. Its more like the website forgets that sometimes it is not supposed to show the peole who have ticked "Remain invisible" in the account settings.
I need some advice :P Should I hand in an essay that I have no idea what I'm writing? Like, it's the biggest pile of crap I've ever written... Or... well actually their isn't another option so I'm going to have to hand in this terrible essay and be screamed at for not doing it right lmao!
I can't though haha I blame my teacher, they never gave me an explanation to what they actually want, it was a very vague outline I hate my school though, and not for the obvious reasons of being a teen and not wanting to go to school...
I hate it when they don't tell you what exactly to do Like, at work, I ask my boss what should I take pictures of this month, because I don't want to take too many of the same stuff and he always says "anything you want" IT DON'T HELP
How sweet is Tom Felton as Peagreen in the Borrowers - I'm watching it after many years and am liking the sprinkling of HP stars ie; Tom Felton, Jim Broadbent, Mark Williams
It did that yesterday too :[ it says that Vanilla is over capacity
*thinking*
Shannon's Capacity Theorem. ;-)
*putting two and two together....*
Could it be?
LMAO.....Could it be that you are thinking along the lines that I think you are thinking..... :O
Just to clear all confusion:
Considering all possible multi-level and multi-phase encoding techniques, the Shannon Capacity theorem states the channel capacity C, meaning the theoretical tightest upper bound on the information rate (excluding error correcting codes) of clean (or arbitrarily low bit error rate) data that can be sent with a given average signal power S through an analog communication channel subject to additive white Gaussian noise of power N, is:
where C is the channel capacity in bits per second; B is the bandwidth of the channel in hertz (passband bandwidth in case of a modulated signal); S is the total received signal power over the bandwidth (in case of a modulated signal, often denoted C, i.e. modulated carrier), measured in watt or volt2; N is the total noise or interference power over the bandwidth, measured in watt or volt2; and S/N is the signal-to-noise ratio (SNR) or the carrier-to-noise ratio (CNR) of the communication signal to the Gaussian noise interference expressed as a linear power ratio (not as logarithmic decibels).
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i am refreshing the home page and all I see is silence D<
I go back on the 12th.... hope they'll take it easy on us u_u
I finally sorted out the clothing I don't wear anymore to give to charity or throw away
I folded the stuff that was scattered around the place
I painted something on a canvas for the first time ever, and failed miserably.
I washed a T-shirt and a dress.
And I haven't slept since yesterday, so this is interesting.
Did anybody see it??? :O :O
it says that Vanilla is over capacity
Hahahahahahahahahahahaha
Or... well actually their isn't another option so I'm going to have to hand in this terrible essay and be screamed at for not doing it right lmao!
Like, at work, I ask my boss what should I take pictures of this month, because I don't want to take too many of the same stuff and he always says "anything you want"
IT DON'T HELP
Could it be?
G.G.
Just to clear all confusion:
Considering all possible multi-level and multi-phase encoding techniques, the Shannon Capacity theorem states the channel capacity C, meaning the theoretical tightest upper bound on the information rate (excluding error correcting codes) of clean (or arbitrarily low bit error rate) data that can be sent with a given average signal power S through an analog communication channel subject to additive white Gaussian noise of power N, is:
where
C is the channel capacity in bits per second;
B is the bandwidth of the channel in hertz (passband bandwidth in case of a modulated signal);
S is the total received signal power over the bandwidth (in case of a modulated signal, often denoted C, i.e. modulated carrier), measured in watt or volt2;
N is the total noise or interference power over the bandwidth, measured in watt or volt2; and
S/N is the signal-to-noise ratio (SNR) or the carrier-to-noise ratio (CNR) of the communication signal to the Gaussian noise interference expressed as a linear power ratio (not as logarithmic decibels).
PS - L.M.A.O.
Honestly, you lost me at multi-phase
I still have my "theory"
I'm watching you....
PS - LMFAO