A university professor keeps records of his travel time while he is driving between his home and the university. Over a long period of time he has found that his morning travel times are approx Normally distributed with a meanof 31 minutes and a standard deviationof 3.0 minutes;his return journey in the evening is similarly distributed but with a mean of 35.5 minutes and a standard deviation of 3.5 minutes.

a) Find the probabilitythat on a typical day he spends more than one hour traveling to and from work.

b) Find the probability that on a given day his morning journey is longer than his evening journey?

c) On what proportion of days is the evening journey more than 5 minutes longer than the morning journey?

d) A new route was recently opened. He has discovered that if he leaves home at 8:30am and uses this new route, on 88% of days he arrives at the university by 9:00am. If the times of travel are still approx Normally distributed with a standard deviation of 3.0 minutes, find the mean time for his morning trip using the new route.

a) Find the probability that on a typical day he spends more than one hour traveling to and from work.

we calculate the distribution of the round journey.

Since this is normally distributed,

Mean(Round)=Mean(Morning) + Mean(evening)=31+35.5=66.5 minutes

Var(Round)=var(Morning) + var(evening)=3.0^2+3.5^2=21.25

Then Sd(Round)=SQRT(Var)= SQRT(21.25)=4.61 minutes

Now the z value is

Z=(66.5-60)/4.61= 1.410

From the z-table, we find the z value of 1.410 is 0.9207

Therefore, the probability of T > 60 …

The expert analyzes normal distribution functions. The probability that on a typical day he spends more than one hour traveling to and from work is computed.The solution answers the question(s) below.