Let's assume that all syllables take equal time.
One, Two, ..., Nine->10.
Ten, Eleven, ..., Nineteen->20
Twenty, Twentyone, ..., Ninetynine->10*Twenty, Thirty, ..., Ninety+8*One, Two, ..., Nine->10*17+8*10=250.
One, Two, ..., Ninehundredninetynine->100*Two-, ..., Nine-+100*9*-hundred-+10*One, Two, ..., Ninetynine->100*9+100*9*2+10*(10+20+250)=5500.
One, Two, ..., Ninehundredninetyninethousandninehundredninetynine->1000*Two-, ..., Ninehundredninetynine-+1000*999*-thousand-+1000*One, Two, ..., Ninehundredninetynine->1000*5499+999000*2+1000*5500=12997000 syllables. Figure out the time from your personal opinion on time per syllable.
That depends on how fast you can count.
It would take nothing
It would be the same, 1,000,000, as each one's length is 1cm
The name for the number represented by 1000000 x 1000000 x 1000000 (1 followed by 18 zeros) is a quintillion in short scale (US and modern British) and a trillion in long scale (continental Europe and archaic British).
2740 days
That depends on how fast you can count.
It would take nothing
IF you could count continuously - at the rate of one number per seconds (it would take you longer than that to recite them) - it would take more than 11 days.
It would be the same, 1,000,000, as each one's length is 1cm
A 304800 meter object is 1000000 feet long!
That depends on whether you're using the "long count" or the "short count". In the short count, it would be 18. In the long count, it would be 24.
Assuming one number is counted per second without breaks, it would take 2000 seconds to count to 2000. This is because each number is counted sequentially, with each number taking one second to say aloud. Therefore, it would take a little over 33 minutes to count to 2000.
Time = Distance/Speed = 1000000/100 = 10000 hours.
a girls aloud concert is about 4 and a half hours
31.1 days.
365,250,000
599,999 days.