Please show your work if you're able
Please show your work if you're able Where is the center of gravity for the composite...
Learning Goal Part A To be able to find the center of gravity, the center of mass, and the centroid of a composite body. An object is made from a uniform piece of sheet metal. The object has dimensions of a : 1.35 ft ,b = 3.82 ft , and c = 2.45 ft. A hole with diameter d = 0700 ft is centered at (1.12, 0.675). Find 2,y, the coordinates of the body's centroid (Figure 1) Express your answers...
SECTION B (Solve and show work) Where will be the Center of Gravity of ihe object shown in the figure. Assume that the sticks are massless. (give the coordinates as X and Y values). Q1. (-2,3) 3.00 kg (2,3) 2.00 kg 6.00 m 4.00 m. 4.00 kg 2.00 kg (2,-8) (-2,-3)
Composite Bodies Part A - The x Component of the Center of Gravity of All the Components Learning Goal: To determine the center of gravity of a composite body using the principle of superposition. The layout shown is a representation of a machine shop. Components 1 and 2 have masses of mı = 300kg and m2 = 225kg, respectively. Component 3 must be treated as a distributed load, which is w = 165 kg/m², determined by the area of contact...
Learning Goal: To be able to find the center of gravity, the center of mass, and the centroid of a composite body. A centroid is an object's geometric center. For an object of uniform composition, its centroid is also its center of mass. Often the centroid of a complex composite body is found by, first, cutting the body into regular shaped segments, and then by calculating the weighted average of the segments' centroids. An object is made from a uniform...
Il Review Learning Goal: To be able to find the center of gravity, the center of mass, and the centroid of a composite body. A centroid is an object's geometric center. For an object of uniform comnosition its centroid is also its center of A single-scoop ice cream cone is a composite body made from a single scoop of ice cream placed into a cone. (Figure 2) Assume that the scoop of ice cream is a sphere with radius r...
Part A - The x Component of the Center of Gravity of All the Components Learning Goal: To determine the center of gravity of a composite body using the principle of superposition. The layout shown is a representation of a machine shop. Components 1 and 2 have masses of mi = 270kg and m2 = 205kg, respectively. Component 3 must be treated as a distributed load, which is w = 170 kg/m”, determined by the area of contact between the...
Learning Goal: To practice
Tactics Box 7.1 Finding the center of gravity.
Even though you can locate an object's center of gravity by
suspending it from a pivot, this is rarely a practical technique.
More often, we would like to calculate the center of gravity of an
object made up of a combination of particles. The following Tactics
Box shows how to find the center of gravity of any number of
particles.
Choose an origin for your coordinate system. You...
Please show all work and
formulas used to solve. Thank you for your help.
Calculate the moment of inertia of the composite area below about: a) The x- and y-axes shown (Ix and ly). b) Thex- and y-axes through the centroid of the area (Ix and Iy). 160 40 mm 40 EMm 40 mm 120
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Please Explain you're answers
QUESTION 1 A finite sample space can only contain events that are finite. a. False b. True QUESTION 2 An infinitely large sample space can only contain events that are infinite. a False b-True. QUESTION 3 Consider the experiment of tossing a coin six times. How many outcomes does the sample space for this experiment have? a. 6 b. 12 C. 46 d.36 e.64
Please show all work for both I need to be able to reproduce the
work with different numbers. Thank you
6. The drawing shows a positive charge () and a negative charge (2) fixed to a circle. At the center of the circle they produce a net electric field that is directed along the horizontal axis. Determine the ratio q1/42 of the charges if α-350° and β-640°. X 1.567 1/ 7. Three point-like charges are placed as shown in the...