SOLUTION: Two trains are approaching each other on parallel tracks. Train A is 1/5 of a mile in length. It travels east at a speed of 40 mph. Train B is 1/8 of a mile in length. It travels

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Question 1208315: Two trains are approaching each other on parallel tracks. Train A is 1/5 of a mile in length. It travels east at a speed of 40 mph. Train B is 1/8 of a mile in length. It travels west at a speed of 50 mph.
From the moment the trains meet(that is when their noses touch the same plane perpendicular to the tracks), how much time elapses until their tails completely pass one another.
Found 2 solutions by Edwin McCravy, ikleyn:
Answer by Edwin McCravy(20055)   (Show Source):
You can put this solution on YOUR website!

Think of the two parallel tracks as identical number lines. Suppose the longer train is traveling to the right (east) and the shorter train is traveling to the left (west). The speed of the longer train headed right will be taken as a POSITIVE speed and the speed of the shorter train headed left will be taken as a NEGATIVE speed. The noses of the trains are side by side at time t=0 and their noses are both at point 0 on their number lines (their tracks). The tail of the long train is at point -1/5 at time t=0. The tail of the short train is at point +1/8 at time t=0. We want to know when the tails of the trains will be side-by-side at the same point. The longer train's tail is at point -1/5 at time t=0 and is traveling at rate +40 mph. The shorter train's tail is at +1/8 at time t=0 and is traveling at rate -50 mph. Using DISTANCE = RATE x TIME: At time t, the longer train's nose is at point 40t and so its tail is 1/5 mile further to the left, that is, at 40t-1/5 At time t, the shorter train's nose is at point -50t and so its tail is 1/8 mile further to the right, that is, at -50t+1/8 Remember, we want to know when the tails of the trains will be side by side at the same point on the number lines. We set them equal and get of an hour. That is a very convenient denominator, for since there are 60x60=3600 seconds in an hour, that means the answer is 13 seconds. [In case you're interested in where on the number line (track) that will occur, it will be at -293 1/3 feet. That means they will have passed each other 293 1/3 feet before the longer train's tail has reached the point 0 on the tracks, and where the shorter train is 293 1/3 feet left of the point 0, (where their noses were side by side).] Edwin

Answer by ikleyn(52781)   (Show Source):
You can put this solution on YOUR website!
.
Two trains are approaching each other on parallel tracks. Train A is 1/5 of a mile in length.
It travels east at a speed of 40 mph. Train B is 1/8 of a mile in length. It travels west at a speed of 50 mph.

From the moment the trains meet(that is when their noses touch the same plane perpendicular to the tracks),
how much time elapses until their tails completely pass one another.
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        For your better understanding, here I will show you
        how to solve the problem without using equation.

The starting moment for our consideration is when the trains noses touch the same plane perpendicular to the tracks. At this time moment, the ending points of the trains are at the distance equal to the sum of the lengths of trains, i.e. = = of a mile. These two ending points moves/approach toward each other with the speed, which is the sum of the speeds of the trains, i.e. 40 + 50 = 90 miles per hour. It is the relative speed approaching the ending points. The process will complete when the ending points will meet each other. The time is = = of an hour, which is 13 seconds.

Solved.

It is how physicists think when they solve such problems.