Chapter 1

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A nanosecond is: A. 109 s B. 10−9 s C. 10−10 s D. 10−10 s E. 10−12

10−9 s

A sphere with a radius of 1.7 cm has a volume of: A. 2.1 × 10−5 m3 B. 9.1 × 10−4 m3 C. 3.6 × 10−3 m3 D. 0.11 m3 E. 21 m3

A. 2.1 × 10−5 m3

Suppose A = BC, where A has the dimension L/M and C has the dimension L/T. Then B has the dimension: A. T/M B. L2/TM C. TM/L2 D. L2T/M E. M/L2T

A. T/M

Which of the following weighs about a pound? A. 0.05 kg B. 0.5 kg C. 5 kg D. 50 kg E. 500 kg

B. 0.5 kg

(5.0 × 104) × (3.0 × 10−6) = A. 1.5 × 10−3 B. 1.5 × 10−1 C. 1.5 × 101 D. 1.5 × 103 E. 1.5 × 105

B. 1.5 × 10−1

A gram is: A. 10−6 kg B. 10−3 kg C. 1 kg D. 103 kg E. 106 kg

B. 10−3 kg

A square with an edge of exactly 1 cm has an area of: A. 10−6 m2 B. 10−4 m2 C. 102 m2 D. 104 m2 E. 106 m2

B. 10−4 m2

A cubic box with an edge of exactly 1 cm has a volume of: A. 10−9 m3 B. 10−6 m3 C. 10−3 m3 D. 103 m3 E. 106 m3

B. 10−6 m3

1 mi is equivalent to 1609 m so 55 mph is: A. 15 m/s B. 25 m/s C. 66 m/s D. 88 m/s E. 1500 m/s

B. 25 m/s

1.513 + 27.3 = A. 29 B. 28.8 C. 28.9 D. 28.81 E. 28.813

B. 28.8

The number of significant figures in 0.00150 is: A. 2 B. 3 C. 4 D. 5 E. 6

B. 3

1 m is equivalent to 3.281 ft. A cube with an edge of 1.5 ft has a volume of: A. 1.2 × 102 m3 B. 9.6 × 10−2 m3 C. 10.5 m3 D. 9.5 × 10−2 m3 E. 0.21 m3

B. 9.6 × 10−2 m3

Which of the following is closest to a yard in length? A. 0.01 m B. 0.1 m C. 1 m D. 100 m E. 1000 m

C. 1 m

(5.0 × 104) × (3.0 × 106) = A. 1.5 × 109 B. 1.5 × 1010 C. 1.5 × 1011 D. 1.5 × 1012 E. 1.5 × 1013

C. 1.5 × 1011

The number of significant figures in 15.0 is: A. 1 B. 2 C. 3 D. 4 E. 5

C. 3

A sphere with a radius of 1.7 cm has a surface area of: A. 2.1 × 10−5 m2 B. 9.1 × 10−4 m2 C. 3.6 × 10−3 m2 D. 0.11 m2 E. 36 m2

C. 3.6 × 10−3 m2

3.2 × 2.7 = A. 9 B. 8 C. 8.6 D. 8.64 E. 8.640

C. 8.6

The SI base unit for mass is: A. gram B. pound C. kilogram D. ounce E. kilopound

C. kilogram

In 1866, the U. S. Congress defined the U. S. yard as exactly 3600/3937 international meter. This was done primarily because: A. length can be measured more accurately in meters than in yards B. the meter is more stable than the yard C. this definition relates the common U. S. length units to a more widely used system D. there are more wavelengths in a yard than in a meter E. the members of this Congress were exceptionally intelligent

C. this definition relates the common U. S. length units to a more widely used system

Suppose A = BnCm, where A has dimensions LT, B has dimensions L2T−1, and C has dimensions LT2. Then the exponents n and m have the values: A. 2/3; 1/3 B. 2; 3 C. 4/5; −1/5 D. 1/5; 3/5 E. 1/2; 1/2

D. 1/5; 3/5

A right circular cylinder with a radius of 2.3 cm and a height of 1.4 m has a volume of: A. 0.20 m3 B. 0.14 m3 C. 9.3 × 10−3 m3 D. 2.3 × 10−3 m3 E. 7.4 × 10−4 m3

D. 2.3 × 10−3 m3

A right circular cylinder with a radius of 2.3 cm and a height of 1.4 cm has a total surface area of: A. 1.7 × 10−3 m2 B. 3.2 × 10−3 m2 C. 2.0 × 10−3 m3 D. 5.3 × 10−3 m2 E. 7.4 × 10−3 m2

D. 5.3 × 10−3 m2

There is no SI base unit for area because: A. an area has no thickness; hence no physical standard can be built B. we live in a three (not a two) dimensional world C. it is impossible to express square feet in terms of meters D. area can be expressed in terms of square meters E. area is not an important physical quantity

D. area can be expressed in terms of square meters

During a short interval of time the speed v in m/s of an automobile is given by v = at2 + bt3, where the time t is in seconds. The units of a and b are respectively: A. m · s2; m · s4 B. s3/m; s4/m C. m/s 2 ; m/s 3 D. m/s 3 ; m/s 4 E. m/s 4 ; m/s 5

D. m/s 3 ; m/s 4

(7.0 × 106)/(2.0 × 10−6) = A. 3.5 × 10−12 B. 3.5 × 10−6 C. 3.5 D. 3.5 × 106 E. 3.5 × 1012

E. 3.5 × 1012

5.0 × 105 + 3.0 × 106 = A. 8.0 × 105 B. 8.0 × 106 C. 5.3 × 105 D. 3.5 × 105 E. 3.5 × 106

E. 3.5 × 106

The SI standard of time is based on: A. the daily rotation of the earth B. the frequency of light emitted by Kr86 C. the yearly revolution of the earth about the sun D. a precision pendulum clock E. none of these

E. none of these

The SI standard of length is based on: A. the distance from the north pole to the equator along a meridian passing through Paris B. wavelength of light emitted by Hg198 C. wavelength of light emitted by Kr86 D. a precision meter stick in Paris E. the speed of light

E. the speed of light


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Mgmt 383 ch 11, Mgmt 383 Ch10, Mgmt 383 CH1, Mgmt 383 ch2, MGMT 383 CH3, Mgmt 383 Ch 4, Mgmt 383 Ch 5, Mgmt 383 Ch 6, Mgmt 383 Ch 7

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