If the cosmic radiation to which a person is exposed while flying by jet across US is a random variable having mean 4.35 mrem and standard deviation 0.59 mrem,find the probabilities that the amount of - QAmmunity.org

If the cosmic radiation to which a person is exposed while flying by jet across US is a random variable having mean 4.35 mrem and standard deviation 0.59 mrem,find the probabilities that the amount of

asked Oct 6, 2021 40.5k views

1 Answer

Answer:

a

P(4.00 < X < 5.00) = 0.58818

b

$P(X \ge 5.5) = 0.02564$

c

P(X < 4 ) = 0.27652

Explanation:

From the question we are told that

The mean is
$\mu = 4.35$

The standard deviation is
$\sigma =  0.59$

Generally the probability that the amount of cosmic radiation to which a person will be exposed on such a flight is between 4.00 and 5.00 mrem is mathematically represented as

$P(4.00 <  X  <  5.00) =  P(( 4 - \mu )/(\sigma) <  (X - \mu)/(\sigma) <  ( 5 - \mu )/( \sigma)  )$

Here
$(X - \mu)/(\sigma)  = Z  (The \  standardized \  value \  of \  X )$

=>
P(4.00 < X < 5.00) = P(( 4 - 4.35 )/(0.59) < Z < ( 5 - 4.35 )/( 0.59) )

=>
P(4.00 < X < 5.00) = P(-0.59322 < Z < 1.1017 )

=>
P(4.00 < X < 5.00) = P( Z < 1.1017 ) - P(Z < -0.59322)

From the z -table the probability of ( Z < 1.1017 ) and (Z < -0.59322) are

P( Z < 1.1017 ) =0.8647

and

P( Z < -0.59322 ) =0.27652

So

=>
P(4.00 < X < 5.00) = 0.8647 - 0.27652

=>
P(4.00 < X < 5.00) = 0.58818

Generally the probability that the amount of cosmic radiation to which a person will be exposed on such a flight is At least 5.50 mrem is mathematically represented as

$P(X \ge 5.5) = 1- P(X < 5.5)$

Here

$P(X < 5.5) =  P((X - \mu )/(\sigma)  <  (5.5 - 4.35)/(0.59)  )$

P(X < 5.5) = P(Z< 1.94915)

From the z -table the probability of (Z< 1.94915) is

P(Z< 1.94915) = 0.97436

So

$P(X \ge 5.5) = 1- 0.97436$

=>
$P(X \ge 5.5) = 0.02564$

Generally the probability that the amount of cosmic radiation to which a person will be exposed on such a flight is less than 4.00 mrem is mathematically represented as

$P(X < 4) =  P((X - \mu )/(\sigma)  <  (4 - 4.35)/(0.59)  )$

P(X < 4) = P(Z< -0.59322)

From the z -table the probability of (Z< 1.94915) is

P(Z< -0.59322) = 0.27652

So

P(X < 4 ) = 0.27652

Josketres answered Oct 12, 2021

5.6k points

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