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Engineering
Mechanical Engineering
*6-32. Locate the centroid y of the homogeneous solid formed by revolving the shaded area about the y axis 7+(z - a) -a
*6-32. Locate the centroid y of the homogeneous solid formed by revolving the shaded area about the y axis 7+(z - a) -a
BUY
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:
9781305501607
Author: Andrew Pytel And Jaan Kiusalaas
Publisher:
CENGAGE L
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1 Introduction To Statics
2 Basic Operations With Force Systems
3 Resultants Of Force Systems
4 Coplanar Equilibrium Analysis
5 Three-dimensional Equilibrium
6 Beams And Cables
7 Dry Friction
8 Centroids And Distributed Loads
9 Moments And Products Of Inertia Of Areas
10 Virtual Work And Potential Energy
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Chapter Questions
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Problem 8.1P: Use integration to determine the coordinates of the centroid of the plane region shown.
Problem 8.2P: Use integration to determine the coordinates of the centroid of the plane region shown.
Problem 8.3P: Use integration to determine the coordinates of the centroid of the plane region shown.
Problem 8.4P: Use integration to determine the coordinates of the centroid of the plane region shown.
Problem 8.5P: Use integration to determine the coordinates of the centroid of the plane region shown.
Problem 8.6P: Use integration to determine the coordinates of the centroid of the plane region shown.
Problem 8.7P: Using integration, locate the centroid of the area under the n-th order parabola in terms of b, h,...
Problem 8.8P: Determine the y-coordinate of the centroid of the half-elliptical area. Use integration.
Problem 8.9P: Determine the y-coordinate 0f the centroid of the semicircular segment, given that a = 18 in. and...
Problem 8.10P: Use integration to locate the centroid of the shaded region in terms of R and t. (b) Show that when...
Problem 8.11P: Locate the centroid of the parabola by integration.
Problem 8.12P: Use integration to locate the centroid of the quarter circular are shown in Table 8.2.
Problem 8.13P: The parametric equations of the plane curve known as a cycloid are x=a(sin) and y=a(1cos). Use...
Problem 8.14P: Use the method of composite areas to calculate the centroidal coordinates of the plane regions...
Problem 8.15P: Use the method of composite areas to calculate the centroidal coordinates of the plane regions...
Problem 8.16P: Use the method of composite areas to calculate the centroidal coordinates of the plane regions...
Problem 8.17P: Use the method of composite areas to calculate the centroidal coordinates of the plane regions...
Problem 8.18P: Use the method of composite areas to calculate the centroidal coordinates of the plane regions...
Problem 8.19P: Use the method of composite areas to calculate the centroidal coordinates of the plane regions...
Problem 8.20P: Use the method of composite areas to calculate the centroidal coordinates of the plane regions...
Problem 8.21P: Use the method of composite areas to calculate the centroidal coordinates of the plane regions...
Problem 8.22P: The plane region is bounded by a semicircle of radius R and a parabola of height h. Determine the...
Problem 8.23P: The centroid of the plane region shown is at C. Use the method of composite areas to determine the...
Problem 8.24P: Compute the centroidal coordinates of the L-shaped region in terms of b and t using the method of...
Problem 8.25P: Find the centroidal coordinates of the plane region shown. Use the method of composite areas.
Problem 8.26P: Using the method of composite areas, find the dimension h that maximizes the centroid coordinate y...
Problem 8.27P: Given that the centroid of the plane region is at C, find the radius R. Use the method of composite...
Problem 8.28P: Using the method of composite curves, locate the centroids of the plane curves shown.
Problem 8.29P: Using the method of composite curves, locate the centroids of the plane curves shown.
Problem 8.30P: Using the method of composite curves, locate the centroids of the plane curves shown.
Problem 8.31P: Using the method of composite curves, locate the centroids of the plane curves shown.
Problem 8.32P: Using the method of composite curves, locate the centroids of the plane curves shown.
Problem 8.33P: Using the method of composite curves, locate the centroids of the plane curves shown.
Problem 8.34P: Determine the ratio a/b for which the centroid of the composite curve will be located at point O.
Problem 8.35P: Use numerical integration to locate the centroid of the symmetric plane
Problem 8.36P: Determine the centroidal coordinates of the plane region by numerical integration.
Problem 8.37P: Compute the centroidal y-coordinate of the plane curve y=ex2 between x=0 and x=1, where x and y are...
Problem 8.38P: The equation of the catenary shown is y = 100 cosh (x/100) where x and y are measured in feet (the...
Problem 8.39P: Use integration to locate the centroid of the volume of the hemisphere. Compare your results with...
Problem 8.40P: By integration, find the centroid of the surface of the hemisphere. Compare your result With Table...
Problem 8.41P: Locate the centroid of the volume obtained by revolving the triangle about the x-axis. Use...
Problem 8.42P: Solve Prob. 8.41 assuming that the triangle is revolved about the y-axis.
Problem 8.43P: Use integration to find the centroidal coordinates for the volume obtained by revolving the area...
Problem 8.44P: Solve Prob. 8.43 assuming that the area is revolved about the y-axis.
Problem 8.45P: Verify the centroidal z-coordinate of the pyramid shown in Table 8.3 by integration.
Problem 8.46P: Use integration to compute the z-coordinate of the centroid of the half cone.
Problem 8.47P: Determine the centroidal z-coordinate of the curved surface of the half cone by integration.
Problem 8.48P
Problem 8.49P: Locate the centroid of the volume between the curved surface and the xy-plane using integration.
Problem 8.50P
Problem 8.51P
Problem 8.52P: By the method of composite volumes, determine the centroidal coordinates of the volume.
Problem 8.53P: By the method of composite volumes, determine the centroidal coordinates of the volume.
Problem 8.54P: By the method of composite volumes, determine the centroidal coordinates of the volume.
Problem 8.55P: By the method of composite volumes, determine the centroidal coordinates of the volume.
Problem 8.56P: By the method of composite volumes, determine the centroidal coordinates of the volume.
Problem 8.57P: By the method of composite volumes, determine the centroidal coordinates of the volume.
Problem 8.58P: Use the method of composite volumes to determine the centroidal coordinates of the volume.
Problem 8.59P: The cylindrical container will have maximum stability against tipping when its centroid is located...
Problem 8.60P: Using the method of composite surfaces, locate the centroid of the surface.
Problem 8.61P: Using the method of composite surfaces, locate the centroid of the surface.
Problem 8.62P: Using the method of composite surfaces, locate the centroid of the surface.
Problem 8.63P: Using the method of composite surfaces, locate the centroid of the surface.
Problem 8.64P: Using the method of composite surfaces, locate the centroid of the surface.
Problem 8.65P: Using the method of composite surfaces, locate the centroid of the surface.
Problem 8.66P: The picture board and its triangular supporting bracket form a composite surface. Calculate the...
Problem 8.67P: By the method of composite curves, locate the centroid of the wire figure.
Problem 8.68P: By the method of composite curves, locate the centroid of the wire figure.
Problem 8.69P: By the method of composite curves, locate the centroid of the wire figure.
Problem 8.70P: Use numerical integration to find the centroid of the volume generated by revolving the area shown...
Problem 8.71P
Problem 8.72P: Locate the centroid of the volume generated by revolving the area shown about the line AB. Use...
Problem 8.73P
Problem 8.74P
Problem 8.75P
Problem 8.76P: A 6-in. diameter hole is drilled in the conical frustum. Calculate the volume and the surface area...
Problem 8.77P: A torus is formed by rotating the circle about the axis AB. Compute the volume and the surface area...
Problem 8.78P: A solid of revolution is formed by rotating the plane area shown about the y-axis. Determine the...
Problem 8.79P: Compute the volume of the spherical cap that is formed when the circular segment is revolved about...
Problem 8.80P: Calculate the surface area of the truncated sphere that is formed by rotating the circular arc AB...
Problem 8.81P: The rim of a steel V-belt pulley is formed by rotating the plane area shown about the axis AB. Find...
Problem 8.82P: Determine the volume of the machine part shown.
Problem 8.83P: A solid is generated by rotating the plane area about the axis AB. Compute the volume of the solid.
Problem 8.84P
Problem 8.85P: Find the surface area of the 90 duct elbow.
Problem 8.86P: Determine the volume of the concrete arch dam.
Problem 8.87P: (a) Find the volume of liquid contained in the flask when it is filled to the full mark. (b)...
Problem 8.88P: Compute the surface area of the axi-symmetric domed structure.
Problem 8.89P: The steel cylinder with a cylindrical hole is connected to the copper cone. Find the center of...
Problem 8.90P: The hemispherical glass bowl is filled with water. Find the location y of the center of gravity of...
Problem 8.91P: What is the ratio L/R for which the uniform wire figure can be balanced in the position shown?
Problem 8.92P: Small screws are used to fasten a piece of hardwood to the bracket that is formed from...
Problem 8.93P
Problem 8.94P: 3.94 The aluminum cylinder is attached to the steel hemisphere. Find the height h of the cylinder...
Problem 8.95P
Problem 8.96P
Problem 8.97P
Problem 8.98P: Locate the center of gravity of the hammer if the mass of the steel head is 0.919 kg, and the mass...
Problem 8.99P
Problem 8.100P: The cylindrical water tank with R = 10 ft and H = 1.6 ft has thin steel walls of uniform thickness...
Problem 8.101P
Problem 8.102P: Five 34-in. diameter holes are to be drilled in a uniform plate. Determine the angle for the...
Problem 8.103P: Wind pressure acting on a cylinder can be approximated by p=p0cos, where p0 is a constant (note that...
Problem 8.104P
Problem 8.105P: The pressure acting on the square plate varies as p=p0(xb +xyb2) where p0 is a constant. Use...
Problem 8.106P
Problem 8.107P
Problem 8.108P: If the intensity of the line loading is w=[(40xx2)/40]lb/in., where x is measured in inches, use...
Problem 8.109P
Problem 8.110P: The intensity of the line loading acting on a quarter circle is w=w0(2/). Use intergration to...
Problem 8.111P: Determine the resultant force or resultant couple for each of the line loads shown. In each case the...
Problem 8.112P: The inside surface of each thin shell carries a uniform normal pressure of intensity p0. Compute R,...
Problem 8.113P: Calculate the resultant force caused by the water acting on the parabolic arch dam. The water levels...
Problem 8.114P: Determine the resultant force acting on the elbow of the thin-walled pipe when the pipe carries a...
Problem 8.115P: Determine the smallest distance I) that would prevent the concrete dam from tipping about corner A....
Problem 8.116P: Each of the three gates has a constant width 1: (perpendicular to the paper). Calculate the force P...
Problem 8.117P: The concrete dam shown in cross section holds back fresh water (=1000kg/m3). Determine the resultant...
Problem 8.118P: A concrete seawater dam is shown in cross section. Is the dam safe against tipping about edge A? The...
Problem 8.119P: Determine the force F required to pull up the 3.54m stopper from the drain of a sink if the depth of...
Problem 8.120P: The normal pressure acting on the triangular plate is p=p0(y/h). Use intergration to determine the...
Problem 8.121P: One side of the container has a 03-m square door that is hinged at its top edge. If the container is...
Problem 8.122P: The 12-ft wide quarter-circular gate AB is hinged at A. Determine the contact force between the gate...
Problem 8.123RP: The center of gravity of the plane wire figure is located at G. Determine the lengths a and b.
Problem 8.124RP: The 10-m wide gate restrains water at a depth of 6 m. Calculate the magnitude of the hinge reaction...
Problem 8.125RP: Find the resultant of the line load shown.
Problem 8.126RP
Problem 8.127RP: Determine the centroidal coordinates of the volume shown.
Problem 8.128RP
Problem 8.129RP
Problem 8.130RP
Problem 8.131RP: Using the method of composite areas, find the centroid of the truncated parabolic complement.
Problem 8.132RP: Find the centroid of the truncated parabolic complement by integration.
Problem 8.133RP
Problem 8.134RP: A solid of revolution is formed by rotating the plane area about the axis AB. Compute the volume and...
Problem 8.135RP: Two hemispherical shells of inner diameter 1 m are joined together with 12 equally spaced bolts. If...
Problem 8.136RP: Calculate the area of the surface generated when the plane z-curve is rotated about (a) the x-axis;...
Problem 8.137RP: Determine the resultant of the line loading, given that w0=36lb/ft.
Problem 8.138RP: Determine the centroidal coordinates of the plane region.
Problem 8.139RP: The sheet metal trough has a uniform wall thickness. Determine the coordinates of its center of...
Problem 8.140RP: The trough is filled with water (=62.4lb/ft3). Determine the resultant force of the water pressure...
Problem 8.141RP: The thin-walled cylindrical can with a spherical dimple weighs 0.2 lb. Determine the force P...
Problem 8.142RP: Find the location of the centroid of the shaded plane region.
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*6-32. Locate the centroid y of the homogeneous solid formed by revolving the shaded area about the y axis 7+(z - a) -a
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