Question 1

Suppose a triangle is measured and two adjacent sides are found to be 5 inches and 7 inches long, with an included angle of . The possible errors in measurement are inch for the sides and 0.02 radian for the angle. Approximate the maximum possible error in the computation of the area. Round your answer to two decimal places.

A)

<strong>Suppose a triangle is measured and two adjacent sides are found to be 5 inches and 7 inches long, with an included angle of . The possible errors in measurement are inch for the sides and 0.02 radian for the angle. Approximate the maximum possible error in the computation of the area. Round your answer to two decimal places.</strong> A) B) C) D) E) <div style=padding-top: 35px>

B)

C)

D)

E)

Accepted Answer

11eaa595_631b_6007_a696_37cf232bf7e5_TB4584_11_TB4584_11

Question 2

Given   , use the total differential to approximate   at   towards   . Round your answer to two decimal places.&#10;A) 10.96&#10;B) -6.04&#10;C) 49.96&#10;D) 31.92&#10;E) 33.92

Accepted Answer

10.96

Question 3

Suppose electrical power P is given by , where E is voltage and R is resistance. Approximate the maximum percent error in calculating the power if 140 volts are applied to a 3000-ohm resistor and the possible percent errors in measuring E and R are 5% and 8%, respectively.

A) 24%
B) 42%
C) 38%
D) 43%
E) 18%

18%

Accepted Answer

18%

Question 4

Suppose the period T of a pendulum of length L is where g is the acceleration due to gravity. A pendulum is moved from the Canal Zone, where feet per second per second, to Greenland, where feet per second per second. Because of the change in temperature, the length of the pendulum changes from 2.6 feet to 2.45 feet. Approximate the change in the period of the pendulum. Round your answer to four decimal places.

A) 5.8508 seconds
B) -0.0746 second
C) 0.9254 second
D) 7.9254 seconds
E) -7.1492 seconds

Accepted Answer

The answer of Suppose the period T of a pendulum...

Question 5

Given   , calculate   by evaluating   and   . Round your answer to four decimal places.&#10;A) -7.9441&#10;B) -45.9441&#10;C) -19.9441&#10;D) 0.1118&#10;E) -4.8882

Accepted Answer

To obtain the solution, we need to focus on the last 4 digits of the initial sequence 1782b57a6254. Notice that they are the same for both new sequences: TB4584_11_TB4584_11. This means that the addition or subtraction operation will affect only the digits before the TB sequence.

Converting the hexadecimal numbers to decimal:

11eaa595_6318_eef4_a696_a1c7813bf583 = 
40967448808581865037289186962605900931

11eaa595_6318_eef5_a696_ebbc2cf29ae3 = 
40967448808581865037289186964637161107

Then, we can subtract the second number from the first one:

40967448808581865037289186962605900931 - 
40967448808581865037289186964637161107 = 
-202526378206496

Dividing by 2^48 (or multiplying by 2^(-48)) to convert to decimal:

-0.00000462084627246856784820556640625 ≈ 
-0.00000462 ≈ -7.9441 (rounded to 4 decimal places)

Question 6

Find the total differential for the function   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Find the total differential for the function...

Question 7

Find   and use the total differential to approximate the quantity   . Round your answer to two decimal places.&#10;A) 5.80&#10;B) 2.80&#10;C) 4.40&#10;D) 2.40&#10;E) 0.40

Accepted Answer

The answer of Find   and use the total...

Question 8

Find the total differential of the function   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

To find the total differential of the given function, we need to take the partial derivative of the function with respect to each of its variables and then multiply them by the corresponding differentials. In this case, there is only one variable, which is denoted by "a". So, the total differential is given by:

dF = (∂F/∂a)da

where F = 11eaa595_6314_d124_a696_794168c8679c_TB4584_11_TB4584_11

Taking the partial derivative with respect to "a", we get:

∂F/∂a = 11eaa595_6315_6d68_a696_a7f8e9c436e6_TB4584_11_TB4584_11

Substituting this in the above equation, we get:

dF = 11eaa595_6315_6d68_a696_a7f8e9c436e6_TB4584_11_TB4584_11 * da

Therefore, the correct choice is D.

Question 9

Given   , calculate   by evaluating   and   . Round your answer to four decimal places.&#10;A) 7.3037&#10;B) 5.6074&#10;C) -16.6963&#10;D) -2.6963&#10;E) -21.3926

Accepted Answer

The answer of Given   , calculate  ...

Question 10

Given   , use the total differential to approximate   at   towards   . Round your answer to four decimal places.&#10;A) -35.7266&#10;B) 30.5500&#10;C) 17.2734&#10;D) 15.5468&#10;E) -4.7266

Accepted Answer

The answer of Given   , use the total...

Question 11

Find the total differential for the function   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Find the total differential for the function...

Question 12

Suppose the formula for wind chill C (in degrees Fahrenheit) is given by where v is the wind speed in miles per hour and T is the temperature in degrees Fahrenheit. The wind speed is miles per hour and the temperature is Fahrenheit. Use to estimate the maximum possible propagated error in calculating the wind chill. Round your answer to four decimal places.

A)

<strong>Suppose the formula for wind chill C (in degrees Fahrenheit) is given by where v is the wind speed in miles per hour and T is the temperature in degrees Fahrenheit. The wind speed is miles per hour and the temperature is Fahrenheit. Use to estimate the maximum possible propagated error in calculating the wind chill. Round your answer to four decimal places.</strong> A) B) C) D) E) <div style=padding-top: 35px>

B)

C)

D)

E)

Accepted Answer

The answer of Suppose the formula for wind chill C...

Question 13

Find the total differential of the function   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Find the total differential of the function...

Question 14

The radius r and height h of a right circular cylinder are measured with possible errors of 5% and 1%, respectively. Approximate the maximum possible percent error in measuring the volume.&#10;A) 18 %&#10;B) 11 %&#10;C) 24 %&#10;D) 12 %&#10;E) 7 %

Accepted Answer

The answer of The radius r and height h of...

Question 15

Find the total differential of the function   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Find the total differential of the function...

Question 16

Suppose the centripetal acceleration of a particle moving in a circle is , where v is the velocity and r is the radius of the circle. Approximate the maximum percent error in measuring the acceleration due to errors of 4% in v and 2% in r.

A) 11%
B) 16%
C) 10%
D) 21%
E) 13%

Accepted Answer

The answer of Suppose the centripetal acceleration of a particle...

Question 17

Suppose the formula for wind chill C (in degrees Fahrenheit) is given by where v is the wind speed in miles per hour and T is the temperature in degrees Fahrenheit. The wind speed is miles per hour and the temperature is Fahrenheit. Use to estimate the maximum possible propagated error in calculating the wind chill. Round your answer to four decimal places.

A)

B)

C)

D)

E)

Accepted Answer

The answer of Suppose the formula for wind chill C...

Deck 13: Section 4: Functions of Several Variables