- 9.9-1: Locate the center of mass of the homogeneous rod bent into the shap...
- 9.9-2: Locate the center of gravity x of the homogeneous rod bent in the f...
- 9.9-3: Locate the distance x to the center of gravity of the homogeneous r...
- 9.9-4: Locate the distance y to the center of gravity of the homogeneous r...
- 9.9-5: Locate the centroid ( x , y ) of the uniform rod. Evaluate the inte...
- 9.9-6: Locate the centroid y of the area.
- 9.9-7: Locate the centroid x of the parabolic area.
- 9.9-8: Locate the centroid y of the parabolic area.
- 9.9-9: Locate the centroid x of the area.
- 9.9-10: Locate the centroid y of the area.
- 9.9-11: Locate the centroid x of the area.
- 9.9-12: Locate the centroid y of the area
- 9.9-13: Locate the centroid x of the area.
- 9.9-14: Locate the centroid y of the area.
- 9.9-15: Locate the centroid x of the area.
- 9.9-16: Locate the centroid y of the area.
- 9.9-17: Locate the centroid x of the shaded area.
- 9.9-18: Locate the centroid x of the area.
- 9.9-19: Locate the centroid y of the area.
- 9.9-20: Locate the centroid y of the shaded area.
- 9.9-21: Locate the centroid x of the area.
- 9.9-22: Locate the centroid y of the area.
- 9.9-23: Locate the centroid x of the quarter elliptical area.
- 9.9-24: Locate the centroid y of the quarter elliptical area.
- 9.9-25: The plate has a thickness of 0.25 ft and a specific weight of g = 1...
- 9.9-26: Locate the centroid x of the area.
- 9.9-27: Locate the centroid y of the area
- 9.9-28: Locate the centroid x of the area
- 9.9-29: Locate the centroid y of the area.
- 9.9-30: Locate the centroid x of the area
- 9.9-31: Locate the centroid y of the area.
- 9.9-32: Locate the centroid x of the area.
- 9.9-33: Locate the centroid y of the area.
- 9.9-34: The steel plate is 0.3 m thick and has a density of 7850 kg>m3 . De...
- 9.9-35: Locate the centroid x of the shaded area
- 9.9-36: Locate the centroid y of the shaded area.
- 9.9-37: If the density at any point in the quarter circular plate is define...
- 9.9-38: If the density at any point in the quarter circular plate is define...
- 9.9-39: If the density at any point in the quarter circular plate is define...
- 9.9-40: If the density at any point in the quarter circular plate is define...
- 9.9-41: Locate the centroid z of the hemisphere
- 9.9-42: Determine the centroid y of the solid.
- 9.9-43: Locate the center of gravity z of the solid.
- 9.9-44: Locate the centroid of the ellipsoid of revolution.
- 9.9-45: Locate the centroid z of the right-elliptical cone.
- 9.9-46: The hemisphere of radius r is made from a stack of very thin plates...
- 9.9-47: Locate the centroid of the quarter-cone.
- 9.9-48: Locate the centroid z of the frustum of the rightcircular cone
- 9.9-49: The kings chamber of the Great Pyramid of Giza is located at its ce...
- 9.9-50: Determine the location z of the centroid for the tetrahedron. Sugge...
- 9.9-51: The truss is made from five members, each having a length of 4 m an...
- 9.9-52: Locate the centroid for the wire. Neglect the thickness of the mate...
- 9.9-53: Locate the centroid for the wire. Neglect the thickness of the mate...
- 9.9-54: Locate the centroid ( x, y ) of the metal cross section. Neglect th...
- 9.9-55: The three members of the frame each have a weight per unit length o...
- 9.9-56: The steel and aluminum plate assembly is bolted together and fasten...
- 9.9-57: To determine the location of the center of gravity of the automobil...
- 9.9-58: Determine the location y of the centroidal axis x9x of the beams cr...
- 9.9-59: Locate the centroid ( x, y ) for the angles crosssectional area.
- 9.9-60: Locate the centroid y of the channels crosssectional area
- 9.9-61: Locate the centroid ( x, y ) of the members crosssectional area.
- 9.9-62: Locate the centroid y of the bulb-tee cross section.
- 9.9-63: Determine the location ( x, y ) of the centroid C of the cross-sect...
- 9.9-64: Locate the centroid y of the concrete beam having the tapered cross...
- 9.9-65: Locate the centroid y of the beams cross-section built up from a ch...
- 9.9-66: Locate the centroid y of the cross-sectional area of the beam const...
- 9.9-67: An aluminum strut has a cross section referred to as a deep hat. Lo...
- 9.9-68: Locate the centroid y of the beams cross-sectional area.
- 9.9-69: Determine the location x of the centroid C of the shaded area that ...
- 9.9-70: Locate the centroid y for the cross-sectional area of the angle.
- 9.9-71: Determine the location y of the centroid of the beams cross-section...
- 9.9-72: A triangular plate made of homogeneous material has a constant thic...
- 9.9-73: A triangular plate made of homogeneous material has a constant thic...
- 9.9-74: The sheet metal part has the dimensions shown. Determine the locati...
- 9.9-75: The sheet metal part has a weight per unit area of 2 lb>ft2 and is ...
- 9.9-76: The wooden table is made from a square board having a weight of 15 ...
- 9.9-77: Determine the location ( x, y ) of the center of gravity of the thr...
- 9.9-78: Locate the center of gravity of the two-block assembly. The specifi...
- 9.9-79: Locate the center of mass of the block. Materials 1, 2, and 3 have ...
- 9.9-80: Locate the centroid z of the homogenous solid formed by boring a he...
- 9.9-81: Locate the center of mass z of the solid formed by boring a hemisph...
- 9.9-82: Determine the distance h to which a 100-mm-diameter hole must be bo...
- 9.9-83: Determine the distance z to the centroid of the shape that consists...
- 9.9-84: The buoy is made from two homogeneous cones each having a radius of...
- 9.9-85: The buoy is made from two homogeneous cones each having a radius of...
- 9.9-86: Locate the center of mass z of the assembly. The assembly consists ...
- 9.9-87: The assembly consists of a 20-in. wooden dowel rod and a tight-fitt...
- 9.9-88: A hole having a radius r is to be drilled in the center of the homo...
- 9.9-89: Locate the center of mass z of the assembly. The cylinder and the c...
- 9.9-90: Determine the outside surface area of the storage tank.
- 9.9-91: Determine the volume of the storage tank.
- 9.9-92: Determine the outside surface area of the hopper
- 9.9-93: The hopper is filled to its top with coal. Determine the volume of ...
- 9.9-94: The rim of a flywheel has the cross section AA shown. Determine the...
- 9.9-95: Determine the surface area of the concrete sea wall, excluding its ...
- 9.9-96: A circular sea wall is made of concrete. Determine the total weight...
- 9.9-97: The process tank is used to store liquids during manufacturing. Est...
- 9.9-98: The process tank is used to store liquids during manufacturing. Est...
- 9.9-99: The V-belt has an inner radius of 6 in. and a crosssectional area a...
- 9.9-100: A V-belt has an inner radius of 6 in., and a crosssectional area as...
- 9.9-101: Determine the surface area and the volume of the ring formed by rot...
- 9.9-102: Determine the surface area of the ring. The cross section is circul...
- 9.9-103: The water-supply tank has a hemispherical bottom and cylindrical si...
- 9.9-104: Determine the number of gallons of paint needed to paint the outsid...
- 9.9-105: The full circular aluminum housing is used in an automotive brake s...
- 9.9-106: Determine the volume of an ellipsoid formed by revolving the shaded...
- 9.9-107: Using integration, determine both the area and the centroidal dista...
- 9.9-108: Determine the height h to which liquid should be poured into the co...
- 9.9-109: Determine the volume of the solid formed by revolving the shaded ar...
- 9.9-110: Determine the volume of material needed to make the casting.
- 9.9-111: Determine the height h to which liquid should be poured into the cu...
- 9.9-112: The water tank has a paraboloid-shaped roof. If one liter of paint ...
- 9.9-113: A steel wheel has a diameter of 840 mm and a cross section as shown...
- 9.9-114: Determine the surface area of the roof of the structure if it is fo...
- 9.9-115: The pressure loading on the plate is described by the function p = ...
- 9.9-116: The loading acting on a square plate is represented by a parabolic ...
- 9.9-117: The load over the plate varies linearly along the sides of the plat...
- 9.9-118: The rectangular plate is subjected to a distributed load over its e...
- 9.9-119: The wind blows uniformly on the front surface of the metal building...
- 9.9-120: The tank is filled with water to a depth of d = 4 m. Determine the ...
- 9.9-121: When the tide water A subsides, the tide gate automatically swings ...
- 9.9-122: Determine the resultant horizontal and vertical force components th...
- 9.9-123: Determine the magnitude of the resultant hydrostatic force acting o...
- 9.9-124: The concrete dam in the shape of a quarter circle. Determine the ma...
- 9.9-125: The storage tank contains oil having a specific weight of go = 56 l...
- 9.9-126: The tank is filled to the top (y = 0.5 m) with water having a densi...
- 9.9-127: The tank is filled with a liquid that has a density of 900 kg>m3 . ...
- 9.9-128: The semicircular drainage pipe is filled with water. Determine the ...
- 9.9-129: The semicircular tunnel passes under a river that is 9 m deep. Dete...
- 9.9-130: The arched surface AB is shaped in the form of a quarter circle. If...

# Solutions for Chapter 9: Engineering Mechanics: Statics 13th Edition

## Full solutions for Engineering Mechanics: Statics | 13th Edition

ISBN: 9780132915540

Solutions for Chapter 9

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