Not sure about "that" star, but it would take about 3700 hours (0.42 years) to reach the sun, our nearest star. The journey to next nearest, Proxima Centauri, would take around 114000 years.
The number 25000 in Roman numerals would be (XXV)
Oh, dude, math time! So, if they raised 22500 out of 25000, you just divide 22500 by 25000 to get 0.9. That means they've reached 90% of their goal. Like, they're so close, it's almost like getting an A- in math class - not bad, but could be better, you know?
Think about it: 80miles/hr and there are 60 minutes in an hour. So if you travel 80 miles in 60 minutes, then in half an hour (30 minutes) you would travel 40 miles. In a quarter of an hour (15 minutes) you would travel 20 miles.
It would take a very long time; about 21 years3 months at 500 miles per hour. Even if you could travel on a beam of light the trip would take about 8 minutes 20 seconds.
Ten seconds.
The average distance from the earth to the moon is approx 250000 miles. If you could travel to the moon at 25000 in a staright line, it would take 10 hours.
My Answer:Matamoros, Mexico
You could travel to any city in the world, provided you travelled for enough days!
You would end up in Europe, then Asia if you continued going east.
Now, that would depend on you starting point.
I dont know figure it out yourself, dont be going on "wiki" "answers!"
If you put $25000 under your mattress in 1900, today it would be worth $25000
Antarctica is the continent where you would have to travel to reach the most southern point on Earth, which is the geographic South Pole.
Sunlight takes 8.4 minutes to travel 93 million miles to Earth. It would take us that long to reach the Sun at light speed.
It would take approximately 40 years to reach the star Vega, which is about 25 light-years away from Earth, if a spaceship could travel at one-tenth the speed of light.
Asia
Southeast.