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Well, the answer is quite simple, but I'm not going to give you the answer to your homework.Think of it this way, if you're traveling 15 miles per hour, how long will it take to travel 15 miles? The answer is obvious, 1 hour.So, all you must do now is divide 60 by 15, and you know how many hours it takes to travel from point A to point B. Then, all you have to do is double your answer to get how many hours it will take to travel from point A to point B, and then back to point A.
It means 35 miles from the point of origin - NOT there and back.
d = 60 miles r = 15 mi/hr t = ? d = rt and t = d/r t = 60 mi/15 mi/hr = 4 hr Since, traveling is going and coming back, then the time is 8 hours.
An additional walk of 5 miles can bring her back to her starting point.
2 Miles An Hour.
Well, the answer is quite simple, but I'm not going to give you the answer to your homework.Think of it this way, if you're traveling 15 miles per hour, how long will it take to travel 15 miles? The answer is obvious, 1 hour.So, all you must do now is divide 60 by 15, and you know how many hours it takes to travel from point A to point B. Then, all you have to do is double your answer to get how many hours it will take to travel from point A to point B, and then back to point A.
Your starting point is the North pole. It can't be the south pole cause then you wouldn't be able to go south. Travel 20 miles south then west 120 miles you would still only be 20 miles from the North pole.
a standing wave
"Displacement" means the difference between the starting point and the end point. If you travel 75 miles to visit your grandmother, and then drive 75 miles back home, you drive the car a distance of 150 miles, but the difference between your starting point and end point is zero ... you ended right where you started from.
No. The distance to the Moon and back is 500,000 miles, which would take 10 days (500,000 divided by 50,000), which is more than a week (7 days).Or, to put it another way, the trip there takes 250,000 miles/ 50,000 miles a day = 5 days, so for the week you would only have 2 days left (7-5) and it takes 5 days, at the same speed, to get back.
Probably safe to say mid-point. When it's as far to go back to your start point as to go on to your end point. I would point out that the "no return" part does not imply the mid-point. It is the point when it is no longer possible to return to your starting point safely. If I am flying 150 miles away and have enough fuel to travel 200 miles (and some reserve for safety) then the point of no return is 100 miles out, not 75 miles. It is the point when I can no longer return to my starting point safely and must continue on to the end point.
Probably safe to say mid-point. When it's as far to go back to your start point as to go on to your end point. I would point out that the "no return" part does not imply the mid-point. It is the point when it is no longer possible to return to your starting point safely. If I am flying 150 miles away and have enough fuel to travel 200 miles (and some reserve for safety) then the point of no return is 100 miles out, not 75 miles. It is the point when I can no longer return to my starting point safely and must continue on to the end point.
It means 35 miles from the point of origin - NOT there and back.
d = 60 miles r = 15 mi/hr t = ? d = rt and t = d/r t = 60 mi/15 mi/hr = 4 hr Since, traveling is going and coming back, then the time is 8 hours.
This would cover about 2400 miles.
It means that it is too late to change your mind about doing something. So if you were in an aircraft with enough fuel to travel one hundred miles, then the point of no return would be at mile 50 because after that point, you would not have enough fuel to make it back to your starting point.
When an injury occurs, it takes a few seconds for the brain to register the pain. The impulse has to travel from the point of impact to the brain and back again.