58. In the SI system the unit of force, the Newton, is a derived unit. True False 59. The meter, second, and kilogram are derived units. True False 60. Cartesian vector analysis is often used to solve problems in three dimensions. True False 61. The positive directions of the x, y, z axes are defined by the Cartesian unit vectors j. ki respectively. True O False 62. The magnitude of a Cartesian vector is equal to the positive square root of the sum of the squares of its components. O True O False
58. In the SI system the unit of force, the Newton, is a derived unit. True False 59. The meter, second, and kilogram are derived units. True False 60. Cartesian vector analysis is often used to solve problems in three dimensions. True False 61. The positive directions of the x, y, z axes are defined by the Cartesian unit vectors j. ki respectively. True O False 62. The magnitude of a Cartesian vector is equal to the positive square root of the sum of the squares of its components. O True O False
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Transcribed Image Text:58. In the SI system the unit of force, the Newton, is a derived unit.
True
False
59. The meter, second, and kilogram are derived units.
True
False
60. Cartesian vector analysis is often used to solve problems in three dimensions.
True
False
61. The positive directions of the x, y, z axes are defined by the Cartesian unit vectors j. ki
respectively.
True
False
62. The magnitude of a Cartesian vector is equal to the positive square root of the sum of the
squares of its components.
True
False
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