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General physics

I need help with this home work assignment 



Practice Makes Perfect – Final Comprehensive Quiz

General Physics Lecture/Lab (PHY 213)

V. M. Edwards, Ph.D., Professor

Last Name__________________________ First name______________________ Score___________


SI Base Units


Quantity


SI Unit
 (word)


SI Unit

(abbreviation)

1. Mass

_________________

_________.

2. Time

_________________

_________.

3. Length

_________________

_________.


SI Prefixes

(write the symbol and the factor)

4. Femto ____ _______

5. Pico ____ ______​_

6. Nano ____ _______

7. Micro ____ _______

8. Milli ____ _______

9. Centi ____ _______

10. Deci ____ _______

11. Deka ____ _______

12. Hecto ____ _______

13. Kilo ____ _______

14. Mega ____ _______

15. Giga ____ _______

16. Tera ____ _______

17. Write the conversion between minutes and seconds

_________________________________.

18. Write the conversion between hours and seconds

_________________________________.

19. Write the conversion between feet and inches

_________________________________.

20. Write the conversion between feet and yards

_________________________________.

21. Write the conversion between feet and miles

_________________________________.

22. Write the conversion between meters and feet

_________________________________.

23. Write the conversion between miles and kilometers

_________________________________.

24. Write the conversion between acre and ft2

_________________________________.

25. Write the conversion between liters and quarts

_________________________________.

26. Write the conversion between liters and cubic centimeters

_________________________________.

27. Write the conversion between U.S. gal and cubic meters

_________________________________.

28. One liter of water has a mass of

_________________________________.

29. The weight of one kilogram in pounds

_________________________________.

30. Area of a rectangle

____________________________

_________.

31. Area of a triangle

____________________________

_________.

32. Area of a circle

____________________________

_________.

33. Circumference of a circle
____________________________

_________.

34. Surface area of a sphere
____________________________

_________.

35. Volume of a rectangular solid
____________________________

_________.

36. Volume of a cylinder

____________________________

_________.

37. Volume of a sphere

____________________________

_________.

38. Acceleration due to gravity

__________________ (SI)__________________(USCS)

39. Mass of Earth

________________________________________

40. Radius of Earth

________________________________________

41. Universal Gravitational Constant
_________________________________________

42. Avogadro’s number NA

_________________________________________

43. The speed of light

_________________________________________

44. Atomic mass unit (u)

_________________________________________

45. Pythagorean Theorem

___________________________

46. Sin θ =
____________________

47. Cos θ =
____________________

48. Tan θ =
____________________


Derived SI and USCS Units

49. kg·m/s2 = _____________

50. slugˑft/s2 = _____________

51. N·m = _____________

52. kgˑm2/s2 = _____________

53.

= _____________

54.

= _____________

55. lb/in2
= _____________

56. A kilogram meter per second squared (kgˑm/s2) is called a ___ ___ ___ ___ ___ ___. This is the SI unit for

___ ___ ___ ___ ___ and ___ ___ ___ ___ ___ ___.

57. A slug foot per second squared (slugˑft/s2) is called a ___ ___ ___ ___ ___. This is the USCS unit for

___ ___ ___ ___ ___ and ___ ___ ___ ___ ___ ___.

58. A Newton meter (Nˑm) is called a ___ ___ ___ ___ ___. This is the SI unit for ___ ___ ___ ___.

59. A kilogram meter squared per second squared (kgˑm2/s2) is also called a ___ ___ ___ ___ ___. This is the SI unit for ___ ___ ___ ___ ___ ___.

60. The joule is the SI unit for ___ ___ ___ ___ as well as ___ ___ ___ ___ ___ ___.

61. A joule per second (J/s) is called a ___ ___ ___ ___. This is the SI unit for ___ ___ ___ ___ ___.

62. A newton meter per second (Nˑm/s) is also called a ___ ___ ___ ___.

63. The ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ is USCS unit for power and 1 hp = ___ ___ ___ W.

64. A newton per meter squared (N/m2) is called a ___ ___ ___ ___ ___ ___. This is the SI unit for

___ ___ ___ ___ ___ ___ ___ ___.

65. A pound per inch squared (lb/in2) is commonly called the ___ ___ ___ . This is the USCS unit for

___ ___ ___ ___ ___ ___ ___ ___.

66. According to the law of conservation of energy, ___ ___ ___ ___ ___ ___ is neither ___ ___ ___ ___ ___ ___ ___ nor ___ ___ ___ ___ ___ ___ ___ ___ ___.

67. The total mechanical energy is equal to the sum of ___ ___ energy and the ___ ___ energy.

68. According to principle of conservation of linear momentum:

__________________________________________________________________________________________


Equation

SI unit

69. Average Speed

______________________

_________.

70. Average Velocity

______________________

_________.

71. Average Acceleration

______________________

_________.

The Kinematic Equations for Constant Acceleration (Chapter 2)

72.

___________________________________

_________.

73.
___________________________________

_________.

74.
___________________________________

_________.

75.
___________________________________

_________.

76. ___________________________________

_________.

77. Height (free fall from rest)

______________________

_________.

78. Components of a vector


a

ax =________________
ay = _________________

79. Magnitude of vector

a

______________________

80. Direction of vector

a


______________________

81. Unit-Vector Notation

______________________

82. The Scalar (or Dot) Product
__________________________________________________________

83. The Vector (or Cross) Product __________________________________________________________

Given
vi and θ, write the equation for the following:

84. The initial vertical velocity

________________________________.

85. The initial horizontal velocity

________________________________.

86. Range

________________________________.

87. Newton’s 2nd Law

______________________

_________.

88. Weight (use
w, m, g)

______________________

_________. ________. (BE)

89. The Gravitational Force (FG) ______________________

_________.

90. Normal Force

______________________

_________.

91. Apparent weight

______________________

_________.

92. Frictional (static) Force

______________________

_________.

93. Frictional (kinetic) Force

______________________

_________.

94. An object is in ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___when it has zero acceleration.

95. Centripetal Acceleration
(ac,v,r)
______________________

_________.

96. Centripetal Force (F,m,ac)
______________________

_________.

97. Centripetal Force ( F,m,v,r)
______________________

_________.

98. Circular velocity (v, r,T)

______________________

_________.

99. Speed of Satellite (Circular Orbit)
______________________

_________.

100. Period of Satellite (Circular Orbit)
______________________

_________.

101. Banked Curves

______________________

102. Workhorizontal (WH, F, s, cosθ)

_____________________

_________.

103. Workagainst gravity (Wg,m,g,h,)
_____________________

_________.

104. Kinetic Energy

______________________

_________.

105. Work – Energy Theorem
______________________

106. Potential Energy

______________________

_________.

107. Total Mechanical Energy
______________________

_________

108. Power (use P, W, t)

______________________

_________.

109. Power (use P, E, t)

______________________

_________.

110. Power (use F,v)

______________________

_________

111. Impulse

______________________

_________.

112. Linear Momentum

______________________

_________.

113. Impulse-Momentum Theorem
______________________

114. T or F
A vector quantity has both magnitude and direction.

115. __________________, __________________ and _____________________ are examples of scalar quantities.

116. __________________, ___________________and _____________________ are examples of vector quantities.

117. Definition of θ in radians (equation)
______________________ (angular displacement)

118. The # of radians that correspond to 360, or one revolution is

_____________.

119. The # of degrees in one radian is

_______​​_______________

120. Angular velocity

______________________

_________.

121. Angular acceleration

______________________

_________.

122. Tangential speed

______________________

_________.

(smooth rolling motion)

123. Tangential acceleration

______________________

_________.

(smooth rolling motion)

The Kinematic Equations for Constant Angular Acceleration (Chapter 10)

124.

___________________________________

_________.

125.

___________________________________

_________.

126.

___________________________________

_________.

127.

___________________________________

_________.

128.

___________________________________

_________.

129. Mass Density

______________________

_______ (SI unit)

130. Pressure

______________________

_______ (SI unit)

131. Pressure in a Static Fluid

______________________

_______ (SI unit)

132. Archimedes’ Principle

______________________

_______ (SI unit)

Temperature Conversions

133. From Celsius to Fahrenheit

______________________

_______ (SI unit)

134. From Fahrenheit to Celsius

______________________

_______ (SI unit)

135. From Celsius to Kelvin

______________________

_______ (SI unit)

136. Normal Body Temperature __________(̊ F) _______ (̊ C) _______ (K)

137. Heat Exchange

______________________

_______ (SI unit)

138. Specific Heat of water

______________________

_______ (SI unit)

139. Density of water

______________________

_______ (SI unit)

140. Density of air at 1 atmosphere (atm)
______________________

_______ (SI Unit)

PAGE

6

_1349093640.unknown

_1634719775.unknown

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