Help me Part E!!! Answer it correctly!!! Make sure you solve work on hand!!! Answer correctly Please!!!!!!! Figure<4.00 in1.25 in2 of 2A 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 = 1.44in that is placed into a 4.00 in tallcone. The interior height of the cone is 3.60 in. The cone has an exterior radius of 1.25 in and an interior radius of1.10 in. The scoop of ice cream sits on the cone's interior radius and extends into the cone some distance. Find thecentroid for the cone (the scoop of ice cream and the cone).Express your answer numerically in inches to three significant figures.▸ View Available Hint(s)z = 4.63 inSubmitPrevious AnswersPart ECorrectThe specific weight of the cone and scoop of ice cream are Yeone 10.0 lb/ft³ and ice cream = 45.0 lb/ft³,respectively. What is 2, the location of the center of gravity of the cone (i.e., the cone and scoop of ice cream)?Express your answer numerically in feet to three significant figures.▸ View Available Hint(s)z =>1 ΑΣΦ 11 vec?ft

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Answered: Figure < 4.00 in 1.25 in 2 of 2 A…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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3
We have a rectangular piece. We wish to manufacture a parallel slot along thepiece in a vertical milling machine and 50 cm from the edge. The width of the slot is 40 mm. TheDepth of the slot is 25 mm. For this, several rough cutting steps and aFine cut with a depth of 0.20 mm. The depth for each of the steps ofrough cut is limited to 1.75 mmAditional information:What is the number of blades used for the rough cutting steps?What is the number of blades used for the fine cutting step?
I asked for problems 6 and 7 to be answered, but I did not get a properly structured answered as the example shows on problem number 1. Here is the link to the questions I already had answered, could you please rewrite the answer so its properly answered as the example shows (Problem 1)? https://www.bartleby.com/questions-and-answers/it-vivch-print-reading-for-industry-228-class-date-name-review-activity-112-for-each-local-note-or-c/cadc3f7b-2c2f-4471-842b-5a84bf505857
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Task 4 Here students need to calculate (a) The cutting speed (b) Turning time (c) Amount of material removed. For a specimen as shown below, if spindle rotates at N = 360 rpm, number of pass = 03, feed rate= 0.2mm/rev, if density of material=7.85× 10-6 Kg/mm³. Appendix Volume for Cylinder = rr?h Volume of frustum= nh (a?+b²+ab)/3 radii 'a' & b' height(Length) 'h'. b-a Taper angle : = tan20 h TDN Cutting speed:V : meters/min 1000 Where: V = Cutting speed in Meter/minute. T= 3.14 D = Diameter of work piece in mm N = rpm Cutting Time Length of the job to be turned NO.of cuts Time to turn mins. Feed/Rev rpm Amount of Material Removed = Original Mass – Machined Mass Original Size of Component 380 mm Machined Component 80 mm 100 mm 120 mm 6 20mm + 25mm + 40mm + 25mm 030mm
3
Q1. The part shown below will be turned in two machining steps. In the first step a length of (50 + 50) = 100 mm will be reduced from Ø100 mm to Ø80 mm and in the second step a length of 50 mm will be reduced from Ø80 mm to Ø60 mm. Calculate the required total machining time T with the following cutting conditions: Cutting speed V=80 m/min, Feed is f=0.8 mm/rev, Depth of cut 3 mm per pass. Ø100 Ø80 Ø60 50 50
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Must solve all the questions. Otherwise dont attempt it. If attempted partially, i will surely dislike. So solve all questions.

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