Engineering analysis

(20 Pt) Consider the blood flow through a mitral valve into the left artery, whi

(20 Pt) Consider the blood flow through a mitral valve into the left artery, which then subdivides into 108 capillaries each having radius of 8 m. The maximum velocity through the…

(20 marks) Problem (2) A 600-MWe power plant burns Alabama, Jefferson, St. Clair

(20 marks) Problem (2) A 600-MWe power plant burns Alabama, Jefferson, St. Clair coal with average moisture and ash fractions of 18 and 15 percent, respectively. This plant operat…

(20 marks) Question 7 is to be designed from unseasoned F14 hardwood member with

(20 marks) Question 7 is to be designed from unseasoned F14 hardwood member with the thickness of e beam has a clear span of 3.5 m and subjected to following unfactored loads. 100…

(20 pa) 11. Subtransmission systems can be configured as radial, improved radiai

(20 pa) 11. Subtransmission systems can be configured as radial, improved radiai. radial, loop, or topologies. A vacant area is being developed with residential, commercial, nehwo…

(20 points) A 3-ft diameter CSTR is equipped with a 1-ft diameter flat-blade tur

(20 points) A 3-ft diameter CSTR is equipped with a 1-ft diameter flat-blade tur- bine. At 300 rpm the reactor yields the desired result. A batch reaction is carried out in the re…

(20 points) Carrier concentration in 2D system (a) (8 points) Derive the carrier

(20 points) Carrier concentration in 2D system (a) (8 points) Derive the carrier concentration in one sub-band in 2D system assuming (b) (5 points) How does the above result chang…

(20 points) Consider the continuous time signal a (t) sin (2 fot) and consider t

(20 points) Consider the continuous time signal a (t) sin (2 fot) and consider the sampling and reconstruction system 1 Let wa be the sampling frequency. a. What is the Nyquist ra…

(20 points) During the 2012 Great Iditarod sled dog race, 11 dogs in harnesses s

(20 points) During the 2012 Great Iditarod sled dog race, 11 dogs in harnesses start to race pulling a sled with the winning musher, Dallas Seavey, on it. Assume that each dog exe…

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 m

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 muF. (a) Calculate the time constant. (b) Find the maximum charge that will appear on the capacitor …

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 m

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 muF. (a) Calculate the time constant. (b) Find the maximum charge that will appear on the capacitor …

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 m

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 muF. (a) Calculate the time constant. (b) Find the maximum charge that will appear on the capacitor …

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 m

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 muF. (a) Calculate the time constant. (b) Find the maximum charge that will appear on the capacitor …

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 m

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 muF. (a) Calculate the time constant. (b) Find the maximum charge that will appear on the capacitor …

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 m

(20 points) In an RC series circuit EMF = 120.0 V, R = 1.40 MOhm, and C = 1.80 muF. (a) Calculate the time constant. (b) Find the maximum charge that will appear on the capacitor …

(20 points) The battery information is listed in the following figure. (a) Pleas

(20 points) The battery information is listed in the following figure. (a) Please determine the current battery state-of-charge. (b) The current battery capacity is found to be 95…

(20 points) Two children, 50.0 kg each, sit on opposite ends of a narrow board w

(20 points) Two children, 50.0 kg each, sit on opposite ends of a narrow board with length of 4.60 m and mass of 40.0 kg (which can be treated as a thin rod of rotational inertia …

(20 points: 4 Points/question) An infinite line of charge, with linear charge de

(20 points: 4 Points/question) An infinite line of charge, with linear charge density 1, diagonally croses . cylindrical Gaussian surface (S), of radius R and length L (See Figure…

(20 pts) 8. A large uniform wheel with radius 0.200 m is mounted on a frictionle

(20 pts) 8. A large uniform wheel with radius 0.200 m is mounted on a frictionless axle that passes through the center of the wheel. The moment of inertia of the wheel for rotatio…

(20 pts) A 0.500 m metal bar is made into a glockenspiel key, which vibrates whe

(20 pts) A 0.500 m metal bar is made into a glockenspiel key, which vibrates when struck with a mallet. Two pins are equal distances d from each end of the bar, and cause vibratio…

(20 pts) A 0.500 m metal bar is made into a glockenspiel key, which vibrates whe

(20 pts) A 0.500 m metal bar is made into a glockenspiel key, which vibrates when struck with a mallet. Two pins are equal distances d from each end of the bar, and cause vibratio…

(20 pts) A spring is hanging from the ceiling and the bottom end of the spring i

(20 pts) A spring is hanging from the ceiling and the bottom end of the spring is at y-0, see ig.(). When Joseph Anderson hangs a 2.10 cm diameter lead ball on the end of the spri…

(20 pts) Convert the following if statement into a switch statement. if (answer

(20 pts) Convert the following if statement into a switch statement. if (answer == ‘y’) { printf(“Let’s do it ”); printf(“Be ready at 5:00pm ”); countYes++; } else if (answer == ‘…

(20 pts) In the Star Trek Movie – The Voyage Home, the crew traveled back in tim

(20 pts) In the Star Trek Movie – The Voyage Home, the crew traveled back in time to 1980’s earth. Toward the end of the movie they realized they needed to transport a whale back …

(20 pts.) Show numerically the validity of the following expression 178 V where

(20 pts.) Show numerically the validity of the following expression 178 V where Hint: use the Matlab intrinsic functions sin and sqrt and the built-in Matlab constant pi. (25 pts.…

(20%) Problem 1: As the depth m a fluid increases, the pressure increases due to

(20%) Problem 1: As the depth m a fluid increases, the pressure increases due to the larger weight ofthe column offluid above. At what depth,i meters, a column of mercury is the p…

(20%) Problem 1: Newton\'s universal law of gravitation says that the gravitatio

(20%) Problem 1: Newton's universal law of gravitation says that the gravitational force on an object of mass m due to a second object of mass Mis where G is the gravitational con…

(20%) Problem 2: A parallel-plate capacitor of capacitance C and distance d betw

(20%) Problem 2: A parallel-plate capacitor of capacitance C and distance d between plates is fully charged from a battery of voltage V. While remaining connected to the battery, …

(20%) Problem 2: A passenger on a train approaching a station at 24 m/s hears a

(20%) Problem 2: A passenger on a train approaching a station at 24 m/s hears a bell ringing in the station. Take the speed of sound to be 343 m/s. G A The passenger hears the bel…

(20%) Problem 2: In the figure, the point charges are located at the corners of

(20%) Problem 2: In the figure, the point charges are located at the corners of an equilateral triangle 29 cm on a side. ga Ic Otheexpertta.co 25% Part (a) Find the magnitude of t…

(20%) Problem 2: In the figure, the point charges are located at the corners of

(20%) Problem 2: In the figure, the point charges are located at the corners of an equilateral triangle 29 cm on a side. ga Ic Otheexpertta.co 25% Part (a) Find the magnitude of t…

(20%) Problem 2: Suppose a 63-kg mountain climber has a 0.78 cm diameter nylon r

(20%) Problem 2: Suppose a 63-kg mountain climber has a 0.78 cm diameter nylon rope Randomized Variables ? 63 kg d 0.78 cm l 31 m By how much does the mountain climber stretch her…

(20%) Problem 2: While watching the clouds pass by, you notice a European swallo

(20%) Problem 2: While watching the clouds pass by, you notice a European swallow flying horizontally 20.9 m above you. When the swallow is directly overhead, it drops a m1 = 11.8…

(20%) Problem 2: While watching the clouds pass by, you notice a European swallo

(20%) Problem 2: While watching the clouds pass by, you notice a European swallow flying horizontally 20.9 m above you. When the swallow is directly overhead, it drops a m1 = 11.8…

(20%) Problem 2: You stand at the top of a deep well. To determine the depth, D,

(20%) Problem 2: You stand at the top of a deep well. To determine the depth, D, of the well you drop a rock from the top of the well and listen for the splash as the rock hits th…

(20%) Problem 3: A block of mass m = 3.5 kg is attached to a spring with spring

(20%) Problem 3: A block of mass m = 3.5 kg is attached to a spring with spring constant k= 890 Nm. It is initially at rest on an inclined plane that is at an angle of = 23° with …

(20%) Problem 3: A merry-go-round is a playground ride that consists of a large

(20%) Problem 3: A merry-go-round is a playground ride that consists of a large disk mounted to that it can freely rotate in a horizontal plane. The merry-go-round shown is initia…

(20%) Problem 3: A point charge P is b-5.5 m above the center of a uniformly Z-a

(20%) Problem 3: A point charge P is b-5.5 m above the center of a uniformly Z-axis charged ring of radius a Randomized Variables b-5.5 m Q=8.5 pC a 52 m sitting in the xy plane w…

(20%) Problem 3: A point charge P is b-5.5 m above the center of a uniformly Z-a

(20%) Problem 3: A point charge P is b-5.5 m above the center of a uniformly Z-axis charged ring of radius a Randomized Variables b-5.5 m Q=8.5 pC a 52 m sitting in the xy plane w…

(20%) Problem 3: A point charge Q = 3.4 nC is located at the origin. A cylinder

(20%) Problem 3: A point charge Q = 3.4 nC is located at the origin. A cylinder of radius R-045 m is concentric with the z-axis with the top of the cylinder at height H1 = 0.75 m …

(20%) Problem 3: Common transparent adhesive tape becomes charged when pulled fr

(20%) Problem 3: Common transparent adhesive tape becomes charged when pulled from a dispenser. If one piece is placed above another, the repulsive force can be great enough to su…

(20%) Problem 3: Common transparent adhesive tape becomes charged when pulled fr

(20%) Problem 3: Common transparent adhesive tape becomes charged when pulled from a dispenser. If one piece is placed above another, the repulsive force can be great enough to su…

(20%) Problem 3: The duration of a photographic flash is related to an RC time c

(20%) Problem 3: The duration of a photographic flash is related to an RC time constant, which is 0.095 us during the flash discharge for a certain camera. Randomized Variables 0.…

(20%) Problem 4: A car of mass 2300 kg collides with a truck of mass 4100 kg at

(20%) Problem 4: A car of mass 2300 kg collides with a truck of mass 4100 kg at the intersection of horizontal roads. The vehicles stick together and slide immediately after the c…

(20%) Problem 4: Consider the compound optical system shown in the diagram, wher

(20%) Problem 4: Consider the compound optical system shown in the diagram, where two thin lenses of focal lengths 5.5 cm (left lens) and 32 cm (right lens) are separated by a dis…

(20%) Problem 4: In a mass spectrometer, a specific velocity can be selected fro

(20%) Problem 4: In a mass spectrometer, a specific velocity can be selected from a distribution by injecting charged particles between a set of plates with a constant electric fi…

(20%) Problem 4: You throw a rock off of a cliff in the horizontal direction wit

(20%) Problem 4: You throw a rock off of a cliff in the horizontal direction with a velocity, v. One second later you throw an identical rock with the same velocity, v, in the hor…

(20%) Problem 4: hollow non-conducting spherical shell has immer radius R/-5 cm

(20%) Problem 4: hollow non-conducting spherical shell has immer radius R/-5 cm and ouler radius R2-17 cm. charge Q--35 nC lies athe center ofthe shell. The shell cames a spherica…

(20%) Problem 5: A capacitor with capacitance C-1 F and inductance L-3H are conn

(20%) Problem 5: A capacitor with capacitance C-1 F and inductance L-3H are connected in parallel. The parallel network is in series with a DC power source having voltage V 7 V, a…

(20%) Problem 5: A hockey puck has a velocity of v = vxi + vyj. Another puck wit

(20%) Problem 5: A hockey puck has a velocity of v = vxi + vyj. Another puck with identical mas s is at rest at the origin. The two pucks collide. After the collision it is observ…

(20%) Problem 5: A hockey puck has a velocity of v = vxi + vyj. Another puck wit

(20%) Problem 5: A hockey puck has a velocity of v = vxi + vyj. Another puck with identical mas s is at rest at the origin. The two pucks collide. After the collision it is observ…