I want the answer of part c Document1nsertDraw Design LayoutReferencesMailingsReviewViewHelpGrammarlyOFind&ReplaceBody) 11A A Aa AAaBbCcDd AaBbCcDd AaBbC AaBbCcC A aBDictateSensitigEditor1 Normal1 No Spac... Heading 1Heading 2TitleA Select*A P.A E -EditingVoice SensitivityEditorStylesFontParagraphA block of weight 3.6 N is launched up a 30 ° inclinedplane of length 2.40 m by a spring with springconstant 2.25 kN/m and maximum compressin0.10 m. The coefficient of kinetic friction is 0.50.• Part ADoes the block reach the top of the incline?yesnoSubillPrevious Answersv CorrectPart BIf so, how much kinetic energy does it have there, if not, how close to the top, along the incline, does it get?Express your answer using two significant figures.K = 3.2 JPart CAnswer part A for a block of twice the weight.О yesO noSubmitRequest AnswerD FocusEnglish (United States)(? ^Where to search12127

Given values, Weight of the block(W) =3.6*2=7.2 N Angle of inclination (θ)=300 Inclined plane…

raph A block of weight 3.6 N is launched up a 30° inclined plane of length 2.40 m by a spring with spring constant 2 25 kN/m and maximum compression 0 10 m The coefficient of kinetic friction is 0 50 Part A Does the block reach the top of the incline? yes no Previous Answers v Correct Part B I If so, how much kinetic energy does it have there; if not, how close to the top, along the incline, does it get? Express your answer using two significant figures. K= 32 J Part C Answer part A for a block of twice the weight. yes no

raph A block of weight 3.6 N is launched up a 30° inclined plane of length 2.40 m by a spring with spring constant 2 25 kN/m and maximum compression 0 10 m The coefficient of kinetic friction is 0 50 Part A Does the block reach the top of the incline? yes no Previous Answers v Correct Part B I If so, how much kinetic energy does it have there; if not, how close to the top, along the incline, does it get? Express your answer using two significant figures. K= 32 J Part C Answer part A for a block of twice the weight. yes no

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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Berserk - Chapter 2- Read Berserk compressor. reggienet.illinoisstate.edu https://reggienet.illinoisstate.edu/access/content/attachment/f6b18576-acf9-... Hint. Both power-sizing and indexing will be used. Ć + Question 3. The purchase price of a natural gas-fired commercial boiler (capacity X) was $181,000 eight years ago. Another boiler of the same basic design, except with the capacity 1.42X, is currently being considered for purchase. If it is purchased, some optional features presently costing $28,000 would be added for your application. If the cost index was 162 for this type of equipment when the capacity X boiler was purchased and is 221 now, and the applicable cost capacity factor is 0.8, what is your estimate of the purchase price for the new boiler? Hint: Use both indexing and power-sizing methods. 88 Illinois State University: TEC 330 001 FA2022 - Applied Economic Analysis For...
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O 17161489 C Get Homework Help With b My Questions | bartleby O Mail - Castro Alvarez, Flavic X Content A learn-us-east-1-prod-fleet01-xythos.s3.amazonaws.com/5c1270dbb5a74/17161489?response-cache-control=private%2C%20max-age%3D21600&respon. ☆ ME 3022 - HW 19 1. (More practice from Monday) A 90° elbow in a horizontal pipe is used to direct a flow of oil (SG = 0.87) upward at a rate of 40 kg/s. The cross- sectional diameter of the elbow is a constant 20 cm. The elbow discharges at A into a large holding tank where the level of oil is 1.8 m above A. The 50 cm "weight" of the elbow and the oil in it is 50 kg. Determine (a) the gage pressure at the inlet of the elbow and (b) the anchoring force needed to hold the elbow stationary. Take the momentum-flux correction factor to be 1.03 40 kg/s at both the inlet and the outlet. Activar Windows Ve a Configuración para activar Windows. Esperando blackboard.ohio.edu. 17:07 P Escribe aquí para buscar a ) ENG 14/10/2020 近
MT345, Monday, 11/01/21, O X B Upload Assignment: In-Class E X us.bbcollab.com/collab/ui/session/join/10611646989f4090a279cd39411071f5 SAMPLE PROBLEM 3-10 (IN-CLASS EXERCISE) A pushrod in the valve mechanism of an automotive engine has a nominal length of 203 mm. If the rod is made of SAE 4140 steel, compute the elongation due to a temperature change from -20°C to 140°C. TABLE 3–4 Coefficients of thermal expansion, a, for some metals, plate glass, wood, and concrete. α Material °F-1 °C-1 Steel, SAE 1020 6.5 x 10-6 11.7 x 10-6 11.3 x 10-6 1040 6.3 x 10-6 4140 6.2 x 10-6 11.2 x 10-6 Structural steel Gray cast iron Stainless steel 6.5 x 10-6 11.7 x 10 6.0 x 10-6 10.8 x 10-6 SAE 301 SAE 430 SAE 501 9.4 × 10-6 5.8 x 10-6 16.9 × 106 10.4 x 10-6 v10-6 MT-345_Ch 03.pptx (91/162)
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C 4) The Wire C The Wire BC X C 4) The Wire x C The Wire BC X The Wire BC x C 4) The Wire x G 3.) With an b Homework A Mi unidad + A drive.google.com/drive/u/0/my-drive Update : A Drive Q Buscar en Drive - Nuevo With an initial diameter of 10 mm, an A-36 steel wire is connected at m ends B and C. The weight of bar AB is negligible along with any friction Mi unidad in the pins. The area contraction of wire BC cannot exceed0.0028%. Compartido What is the mass of the heaviest possible uniform cylinder supported as shown in the figure? Recientes 4x Destacados Papelera Almacenam 62.3 GB de 100 GB utilizado(s) Comprar almacenamier Archivos 10:11 PM hp 4/19/2021
PHYS 14 midterms - Word Carl John Rivas File Home Insert Design Layout References Mailings O Tell me what you want to do & Share Review View Help X Cut P Find - Arial 10 A A Aa - AaBbCcDdE AaBbCcDdE AaBbCc AaBbCcD A aB 自 Copy ab. Replace Paste A . aly v A 1 Normal 1 No Spaci. Heading 1 v abe Heading 2 Title A Select x, V Format Painter Clipboard Font Paragraph Styles Editing 4. A lightweight drone (1.00 kg) is launched at 800 m high and moves upward at a constant velocity (while ignoring the effects of gravity only on the drone). The balloon, when measured at a horizontal distance from you, is about 1600 m away from you. At the moment when the drone moves, you shoot a bullet (weight =180 g) with an initial velocity of 1009 m/s at a fixed angle a, where sin a=3/5 and cos a= 4/5. (g = 9.8 m/s?) (10 pts each) a. How long does it take for the bullet to collide with the drone? b. At what height will the bullet hit it? C. What is the upward velocity of the drone? d. Provided that the…
PHYS 14 midterms - Word Carl John Rivas O X File Home Insert Design Layout References Mailings Review View Help O Tell me what you want to do 유 Share X Cut P Find Arial - 10 A A Aa - AaBbCcDdE AaBbCcDdE AaBbCc AaBbCcDc A aBI 自 Copy abc Replace Paste A . aly v A 1 Normal 1 No Spaci. Heading 1 Heading 2 V Format Painter v abe X, Title A Select Clipboard Font Paragraph Styles Editing A= 2x + 3y B=-2x + y 4. A lightweight drone (1.00 kg) is launched at 800 m high and moves upward at a constant velocity (while ignoring the effects of gravity only on the drone). The balloon, when measured at a horizontal distance from you, is about 1600 m away from you. At the moment when the drone moves, you shoot a bullet (weight =180 g) with an initial velocity of 1009 m/s at a fixed angle a, where sin a=3/5 and cos a= 4/5. (g = 9.8 m/s?) (10 pts each) a. How long does it take for the bullet to collide with the drone? b. At what height will the bullet hit it? Page 1 of 2 542 words 170% PC A O 4) 6:51 PM
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