Brad Peterson, P.E.Brad Peterson, P.E.

FRIDAYS – 14:00 to 15:40

FRIDAYS – 16:10 to 17:50

Class Website: https://sites.google.com/site/njut2009fall/

M P ’ E il Add Mr. Peterson’s Email Address: bradpeterson@engineer.com

Lesson 1, Properties of Fluids, 2009 Sept 04 ; 2009 Sept 18 Lesson 2, Fluid Statics, 2009 Sept 11; 2009 Sept 18 Lesson 2, Fluid Statics, 2009 Sept 11; 2009 Sept 18 Lesson 3, Hydrostatic Force on Surfaces, 2009 Sept 25 Lesson 4, Buoyancy and Flotation Lesson 5, Translation and Rotation of Liquid Masses

L 6 Di i l A l i d H d li Si ili d Lesson 6, Dimensional Analysis and Hydraulic Similitude Lesson 7, Fundamentals of Fluid Flow Lesson 8, Flow in Closed Conduits Lesson 9 Complex Pipeline Systems Lesson 9, Complex Pipeline Systems Lesson 10, Flow in Open Channels Lesson 11, Flow of Compressible Fluids Lesson 12, Measurement of Flow of Fluids

l d b l d Lesson 13, Forces Developed by Moving Fluids Lesson 14, Fluid Machinery

4.1. Archimedes’ Principle4.2. Measuring volume and specific gravity

using Archimedes’ Principle

The basic principle of buoyancy and flotation Discovered by Archimedes in about 200 B.C. Stated as follows:

b d fl b d fl d b d◦ A body floating or submerged in a fluid is buoyed (lifted) up by a force equal to the weight of the fluid displaced by the object.

Greek Engineer, I Ph i iInventor, Physicist, Mathematician

Archimedes Thoughtful by Fetti (1620)

The basic principle of buoyancy and flotation Discovered by Archimedes in about 200 B.C. Stated as follows:

b d fl b d fl d b d◦ A body floating or submerged in a fluid is buoyed (lifted) up by a force equal to the weight of the fluid displaced by the object.

A body floating or submerged in a fluid is buoyed (lift d) b f l t th i ht f th fl id(lifted) up by a force equal to the weight of the fluid displaced by the object.

Volumes of irregular solids can be calculated by measuring the loss of weight when an object is fully submerged

A stone weighs 90N in air. When immersed in water it weighs 50N. Compute the volume of the stone and its specific gravity.

50T N0

YW T F

Water0B

W T FF W T 90W N

90 5090 50 40

F N NF N N N

buoyant force 40BF N

340 9.8 kNN vm

40 0.0041 4.1 9800 /

Nv m litersN m

9800 /N m

weight of the stoneweight of the stonespecific gravity = weight of an equal volume of water

90specific gravity = 2 25Nspecific gravity 2.25

An object that is 0.2m wide by 0.2m thick by 0.4m wide is found to weigh 50N in water at a depth of 0.6m. What is its weight in air and what is its specific gravitywhat is its specific gravity.

50 T N

W T FW T F

W50 BW N F

buoyant force weight of displaced liquid9 8

9.8 (0.2 0.2 0.4 ) 0.157 157BkNF m m m kN N

50 50 157 207BW N F N N N

weight of the stonespecific gravity = i ht f l l f tweight of an equal volume of water

207specific gravity = 2.31157

A hydrometer is an instrument used toinstrument used to measure the specific gravity of liquids.

Remember, specific gravity is the ratio ofgravity is the ratio of the density of the liquid to the density of water.

A hydrometer weighs 0.0216N and has a stem at the upper end that is cylindrical and 2.8mm in diameter. How much deeper will it float in oil with sp gr 0 780 than in alchoholfloat in oil with sp gr 0.780 than in alchohol of sp gr 0.821?

alcohol oilsp gr 0.821 sp gr 0.780

1For position 1 in alcohol compute v1For position 1, in alcohol, compute weight of hydrometer = weight of displaced liquid

9.80.0216 0.821 kNN vm

0.0216 0.000002680 821 9800 /

Nv m mN

0.821 9800 /2.68 10

For position 2, in oilweight of hydrometer = weight of displaced liquid

9 8kN13

9.80.0216 0.780 ( )kNN v Ahm

0.0216( ) 0.000002830.780 9800 /

Nv Ah m mN

6 31( ) 2.83 10 v Ah m

6 3 6 3

( )2.83 10 2.69 10 m mh

2 6 2(0.0028 ) 6.16 10 4

6 3 6 3

42.83 10 2.69 10 0.22 22

6 16 10m mh m mm

6 26.16 10 m

Lesson 1, Properties of Fluids, 2009 Sept 04 ; 2009 Sept 18 Lesson 2, Fluid Statics, 2009 Sept 11; 2009 Sept 18 Lesson 2, Fluid Statics, 2009 Sept 11; 2009 Sept 18 Lesson 3, Hydrostatic Force on Surfaces, 2009 Sept 25 Lesson 4, Buoyancy and Flotation Lesson 5, Translation and Rotation of Liquid Masses

L 6 Di i l A l i d H d li Si ili d Lesson 6, Dimensional Analysis and Hydraulic Similitude Lesson 7, Fundamentals of Fluid Flow Lesson 8, Flow in Closed Conduits Lesson 9 Complex Pipeline Systems Lesson 9, Complex Pipeline Systems Lesson 10, Flow in Open Channels Lesson 11, Flow of Compressible Fluids Lesson 12, Measurement of Flow of Fluids

l d b l d Lesson 13, Forces Developed by Moving Fluids Lesson 14, Fluid Machinery

Brad Peterson, P.E.Brad Peterson, P.E.

Documents

Transcript of Brad Peterson, P.E.Brad Peterson, P.E.

Arbitration Clauses in International Sourcing Transactions...Arbitration Clauses in International Sourcing Transactions September 14, 2016 Brad L. Peterson (MODERATOR) Partner +1 312

Vertical Concrete Slipforming Scholer-Peterson Concrete Conference February 12 Kansas State University by Fred J. Fairchild, P.E. Department of Grain Science.

2012 ACEA MEETING ORANGE BEACH Brad Lindsey, P.E. Assistant State County Transportation Engineer – Pre Construction Alabama Department of Transportation.

Cost Estimating Workshop March 14-17, 2011. Project Phase Update Phase 1 and 3 Brad Hyre, P.E. Transportation Manager HDR Phase 2 Manoj Sethi, P.E. Executive.

General Information - ExpertPages · 2020-02-05 · Homer R. Peterson II, P.E., CSP – Peterson Construction Consulting, Inc. Curriculum Vitae – January 1, 2016 Page 1 of 15 General

M. Nils Peterson, Roel R. Lopez, Philip A. Frank, Brad … et al 2004...M. Nils Peterson, Roel R. Lopez, Philip A. Frank, Brad A. Porter, and Nova J. Silvy Abstract Assuming that a

Brad Peterson, P.E. - Weebly · 2019. 11. 11. · BRAD PETERSON PE PTOEBRAD PETERSON, P.E., PTOE Brigham Young University 1975Brigham Young University, 1975 Highway and Bridge Design

Brad Waldschmidt, P.E., PTOE · Brad Waldschmidt Kimley-Horn 615.564.2701 Brad.Waldschmidt@kimley-horn.com Brad Freeze TDOT Traffic Operations 615.741.5017 Phillip.B.Freeze@tn.gov

ESTABLISHMENT CHUTE HYDRAULIC SEDIMENT RESPONSE …...Brad Krischel, Hydraulic Engineer, under direct supervision of Mr. Robert Davinroy, P.E., Chief of River Engineering Section for

Open19 Workshop…Open19 Workshop Sergiy Zhuk Director, Hardware Engineering LinkedIn Brad Peterson Staff Engineer, Data Center LinkedIn The Open19Project Open19 ProjectGoals • Create

Session 64 Digital Signatures Presented by: Bob Peterson, P.E. Engineering Technology Systems.

images.library.wisc.eduimages.library.wisc.edu/WI/EFacs/NeenahLocHist/NHDir1924/reference/... · Peterson Albert Peterson Benjamin Peterson Hans Peterson John P Peterson John S Peterson

Low Volume Road Surface Selection Tool January 22 nd, 2015 Brad Wentz, P.E. Program Director - UGPTI North Dakota State University.

chase-norlin - Bemmu · boris-mann boris-putanec botjan-peti brad-cater brad-feld brad-fitzpatrick brad-garlinghouse brad-gerstner brad-goldberg brad-greenspan brad-kates brad-pace

EFFECTS OF TURBIDITY ON FORAGING EFFICIENCY AND … · Wightman, Brian Michaels, Matt House, Matt Peterson, Rose Adams, Chad Miller, Ryan Teubert, Brad Haeger and Justin Mercer provided

volcanocliffs.final · Laurie Moye, Vice Chair, District 7 Doug Peterson, Chair, Council District 8 ... Michelle Ramirez, Graphics and Layout, Planning Department Brad Bingham, City

Guide Wire Failure Analysis Brad James, Ph.D., P.E.

Standards Certification Education & Training Publishing Conferences & Exhibits Ethernet I/O Brad S. Carlberg, P.E. Jim McConahay.

Cable-Stop Fractures Brad James Ph.D., P.E., FASM.

FINAL1 Optimizing Dispute Clauses in Technology …...Optimizing Dispute Clauses in Technology Transactions Brad Peterson June 9, 2020 Sarah E. Reynolds Partner, Chicago +1 312 701