Submit center of gravity for lengths, areas, and volumes of simple, uniform objects. The centroid of an object is the object's geometric center. For objects of uniform composition, the centroid is also the object's center of mass. Part B Find the centroid for an area defined by the equations y = 2x + 4 and y = (2x-3)² + 1.(Figure 2) Express your answers numerically in meters to three significant figures separated by a comma. ▸ View Available Hint(s) Figure 2 of 3 > 14 12 10 8 y=2x+4- 6 4 -y-(2x-3)²+1 2 0 x 0 0.5 3 x,y= Submit Part C 1 ΑΣΦ Η vec ? m As shown, a section of a roller coaster track (Figure 3) follows the form of y = (2/3)x1.5. Locate the centroid of the track between x = 0 m and x = 2.5m. Express your answer numerically in meters to three significant figures. ▸ View Available Hint(s) = Submit 1 ΑΣΦ. Η vec Provide Feedback ? m Next> Part A Learning Goal: To be able to find the centroid, center of mass, and center of gravity for lengths, areas, and volumes of simple, uniform objects. The centroid of an object is the object's geometric center. For objects of uniform composition, the centroid is also the object's center of mass. Find the center of mass for a quarter of a uniform sphere in terms of the outside radius of the sphere, R.(Figure 1) Express your answers in terms of R separated by commas. ▸ View Available Hint(s) Figure 1 of 3 R x, y, z= Submit 15 ΑΣΦ 11 vec ? ▾ Part B Find the centroid for an area defined by the equations y = 2x + 4 and y = (2x-3)² + 1.(Figure 2) Express your answers numerically in meters to three significant figures separated by a comma. ▸ View Available Hint(s) z.y = Submit 1 ΑΣΦ It vec ? m ▾ Part C As shown, a section of a roller coaster track (Figure 3) follows the form of y = (2/3)x1.5. Locate the centroid of the track between =0 m and x = 2.5m. Express your answer numerically in meters to three significant figures. ▸ View Available Hint(s)

Help!!! Please answer part A and part B correctly!!! Please!!!

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Submit center of gravity for lengths, areas, and volumes of simple, uniform objects. The centroid of an object is the object's geometric center. For objects of uniform composition, the centroid is also the object's center of mass. Part B Find the centroid for an area defined by the equations y = 2x + 4 and y = (2x-3)² + 1.(Figure 2) Express your answers numerically in meters to three significant figures separated by a comma. ▸ View Available Hint(s) Figure 2 of 3 > 14 12 10 8 y=2x+4- 6 4 -y-(2x-3)²+1 2 0 x 0 0.5 3 x,y= Submit Part C 1 ΑΣΦ Η vec ? m As shown, a section of a roller coaster track (Figure 3) follows the form of y = (2/3)x1.5. Locate the centroid of the track between x = 0 m and x = 2.5m. Express your answer numerically in meters to three significant figures. ▸ View Available Hint(s) = Submit 1 ΑΣΦ. Η vec Provide Feedback ? m Next>

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Part A Learning Goal: To be able to find the centroid, center of mass, and center of gravity for lengths, areas, and volumes of simple, uniform objects. The centroid of an object is the object's geometric center. For objects of uniform composition, the centroid is also the object's center of mass. Find the center of mass for a quarter of a uniform sphere in terms of the outside radius of the sphere, R.(Figure 1) Express your answers in terms of R separated by commas. ▸ View Available Hint(s) Figure 1 of 3 R x, y, z= Submit 15 ΑΣΦ 11 vec ? ▾ Part B Find the centroid for an area defined by the equations y = 2x + 4 and y = (2x-3)² + 1.(Figure 2) Express your answers numerically in meters to three significant figures separated by a comma. ▸ View Available Hint(s) z.y = Submit 1 ΑΣΦ It vec ? m ▾ Part C As shown, a section of a roller coaster track (Figure 3) follows the form of y = (2/3)x1.5. Locate the centroid of the track between =0 m and x = 2.5m. Express your answer numerically in meters to three significant figures. ▸ View Available Hint(s)