Situation 03. An 800kg car accelerates from 54kph to 90kph as the engine is providing 40hp to drive the wheels. Find the distance it traveled during its acceleration.
Q: A thin-walled cylindrical pressure vessel of inner radius r is subjected simultaneously to internal…
A:
Q: Draw the shear and bending moment diagram for the beam shown. Ay = 5.12 kips acting upward and By =…
A: Draw the shear and bending moment diagram for the beam shown. Given data Ay = 5.12 kips acting…
Q: QUESTION 18 Sta. 1+00 has an elevation of 565.00. Sta. 5+68.36 has an elevation of 574.37. What is…
A: Option (a) is correct.
Q: A shot is fired at an angle of 45° with a horizontal and a velocity of 300 fps. Find the height and…
A:
Q: Problem 1 Excavation site was protected using a sheet piles as shown below Depth of excavation. He -…
A: ∆H(difference in water level) = He + di - df = 5 + 1 - 1.5 = 4.5m Hs(depth of sheet pile) = 4.5 m ie…
Q: (a) the maximum speed reached by the 2-kg block, (b) the maximum height reached by the 2-kg block.
A: This question has been taken from engineering mechanics
Q: Ⓡ the total shear force V acting on the cross section is 1,750 N and each nail may carry 860 N in…
A:
Q: Problem 1. Classify each of the plane trusses shown as unstable, statically determinate, or…
A: Given data in question Truss To find out Indeterminacy Note Ds = total Indeterminacy m = number…
Q: *Given the Cable as shown below that weighs 4.0 N/m with 30 N horizontal load applied at the roller…
A:
Q: 9.2 Determine the change in volume of a thin cylinder of original volume 65.5 x 10-3 m³ and length…
A:
Q: ÞA P9 UA 2g =? = 7m DA=0.2m ZA=10m Akım borusu DB=0.3m 24B 2g =? Þs pg =? ZB=15m ds (v. dQ. dt) =…
A:
Q: Water enters and leaves a T-shaped piece of pipe located in the horizontal plane. (1) the relative…
A: step 1-
Q: For the pipe network shown, the flow of water from A to the first junction is 0.055 cubic meter per…
A: Note:- Hi! Thank you for the question, As per the honor code, we are allowed to answer three…
Q: For the foundation shown below, determine the effective pressure increase at the middle of the clay…
A:
Q: ht end and is fixed at the left end. it is subjected to a concentrated load of 20kn at midspan. how…
A:
Q: Calculate the side resistance in kips using the US Army Corps of Engineers (EM 1110-2-2906, Figure…
A:
Q: Estimate the montly average daily global horizontal gradians
A: the monthly average daily global horizontal gradians is calculated below:
Q: a. When you place a door on a wall, how do you switch the direction?
A: Hi! Thank you for the question As per the honour code, We’ll answer the first question since the…
Q: The continuous beam with two unequal spans as shown is subjected to a uniformly distributed load of…
A:
Q: m respectively. Compute the hydraulic conductivity of the aquifer and the radius of influence of…
A:
Q: Situation 01. A crate at rest having a weight of 1.60KN was dragged with a constant force of 0.75KN…
A: Given Data: w = 1.6kn angle = 3V:4H constant force = 0.75kn
Q: The drag coefficient for icted to be 0.21. The cross ermine the aerodynamic d ugh still air at 55…
A:
Q: The beam shown will be subjected to a concentrated live load of 100 kN, a uniformly distributed live…
A: Draw ILD for Reaction as shown
Q: A soil sample has moist unit weight equal to 16.5 kN/m³², water content of 15%, and specific gravity…
A:
Q: A cross section of the original design for the double- decker skyways in the Kansas City Hyatt…
A: Given Data-
Q: 2000 lb 0.5 in. 5 ft- 0.75 in. B| | 4 ft 6000 lb C 0.75 in. - 4 ft- 4000 lb D
A:
Q: II. Method of Superposition Problem 4. Draw the moment diagram for the beam using method of…
A: Bending moment at a section can be found be superimposing(adding) the bending moments due to the two…
Q: Find roller support reaction
A: Given data : The value of Point load P=5 kip The value of point load Q=5 kip The value of Moment…
Q: 2 = 308 →x=30h 1.8 1.8 t₂ = islandh 2(0-8)(7)(0-1)² √19-62h = (122-842) 2 [√7-√T-8] BST S Ashman dh…
A: Simply it is the integration process and by integrating it ,then putting tha upper limits and lower…
Q: The following observations were made during a tensile test on a mild steel specimen 40 mm in…
A: Given data : Tensile load P=40 KN Change in length ∆L=0.0202 mm Initial length L=200 mm Diameter of…
Q: For the beam and loading shown below, determine the beam deflection at point H. Assume that EI = 6.4…
A: To find deflection at H
Q: 11. Method of Superposition Problem 4. Draw the moment diagram for the beam using method of…
A:
Q: Determine the maximum and concrete and steel stresses at the point of maximum positive and negative…
A:
Q: more effective risk communication.
A: 1. Proper selection of materials or components : Select those materials which do not contribute…
Q: 9.42 A rider on a bike with the combined mass of 100 kg attains a terminal speed of 15 m/s on a 12%…
A:
Q: 9.40 A 50-mph wind blows against an outdoor movie screen that is 70 ft wide and 20 ft tall. Estimate…
A:
Q: "| A Answer: VC= W LAB m mm. LBC P X
A:
Q: -Find the deflection of curve and reaction for the beam shown below. W B L
A: step 1-
Q: A 2 km pipe of 0.2 m diameter connects two reservoirs. The difference between the water levels in…
A:
Q: The beam shown below will be subjected to a concentrated live load of 100 kN, a uniformly…
A:
Q: 20. A trapezoidal canal, 6m at the bottom and having side slopes 2:1 carries water to a depth of…
A: B = 6m Side slope 2:1 = n:1 ---> n = 2 V = 0.6 m/s
Q: 9.12 Water flows past a flat plate that is oriented parallel to the flow with an upstream velocity…
A: NOTE - As per BartleBy policy , Expert only permit to answer one question at one time. Given -
Q: Determine the value of coefficient of active pressure of soil having angle of internal friction 33…
A:
Q: 9.43 A baseball is thrown by a pitcher at 95 mph through standard air. The diameter of the baseball…
A: TO Determine Drag force on the baseball.
Q: part (b). |--213-1² 12 in. 2 in. 2 in. 2 in. 3 in. 2 in. 3 in. 4 in. 4 in. (a) (c) (b) The allowable…
A:
Q: Determine maximum principal stress
A: Given data : The value of normal stress in X direction σX=150 MPa The value of normal stress in Y…
Q: In the Hirakud hydroelectric power station, there are four Kaplan and two Francis turbines,…
A: Given: The average head is 26.5 m. The overall efficiency of the Kaplan turbine is 90%. The overall…
Q: atum integral equation to determine - 8(x). oundary layer velocity profile is -line segments…
A: uU=[2-yδ](yδ)For profile to be parbolic (i)Wall velocity is zero (at y=0)(ii) u=U(iii)dudy=0(i)at…
Q: Select the lightest suitable W-shape of A588 grade 50 steel using ASD Prob 5 The interior column of…
A: Given -
Q: Need help asap. can you correct all the calculations like the integration part, can you make it a…
A: Solution-The given values are as follows,d1=20cm or 0.20md2=20cm or 0.20mC=0.80To Determine,T=?
Please answer in a complete solution Thank you..
Step by step
Solved in 2 steps with 2 images
- 5) A car is traveling along a straight road with an acceleration of a = 1/4 * s ^ (1/4) (m/s^ 2 ) Determine the velocity when the car travels 2 (m).The brakes of a car are applied, causing it to slow down at a rate of 10 ft/s2. Knowing that the car stops 300 ft, determine (a) how fast the car was traveling immediately before brakes were applied, (b) the time required for the car to stop.ASAP. THANK YOU! A man drives at a rate of 25 kph towards the foot of an 8-m tall monument. At what rate is he approaching the top when he is 42m from the foot of the monument? A. 21.45 kph B. 31.58 kph C. 24.56 kph D. 6.82 kph
- An automobile starting from rest speeds up to 40 meters per seconds with a constant acceleration of 4 meter per seconds square, runs at this speed for a time, and finally comes to rest with a deceleration of 5 meters per second square. If the total distance traveled is 1000 meters, find the (a) distance traveled covered during the acceleration, (b) distance traveled at constand speed, and (c) the total time of travel.a car starts from rest and travels 10 sec. with an acceleration of a=4-0.3t, then runs for 30 seconds at constant velocity and finally comes to rest by decelerating at 3.125 m per sq. s Determine the velocity of the car after 10 seconds. A. 20 m/s B. 25 m/s C. 30 m/s D. 35 m/s E. none of the above point Determine the distance travelled by the car during the period of 10 seconds. A. 120m B. 150m C. 170m D. 182m E. None of the above Determine the total distance travelled by the car until it stop A. 950m B. 1000m C. 1050m D. 1100m E. None of the aboveIn traveling a distance of 3.3 km between points A and D, a car is driven at 86 km/h from A to B for t seconds and 42 km/h from C to D also for t seconds. If the brakes are applied for 4.8 seconds between B and C to give the car a uniform deceleration, calculate t and the distance s between A and B.
- The car is traveling at a constant speed through a dip in the road. The radius of curvature of the road at point A, the bottom of the dip is 471m. What speed of the car (kph) would result in an acceleration of magnitude 0.2g when the car is at A? use 3 decimal placesA car starts from rest and travels 10 sec. with an acceleration of a = 4 – 0.3t, then runs for 30 sec. at constant velocity and finally comes to rest by decelerating at 3.125 m/s2. Determine the velocity of the car after 10 sec. Determine the distance traveled by the car during the period of 10 sec. c. Determine the total distance traveled by the car until it stops.As shown in Figure 1 of the ski ramp, you need to make sure that theskier lands safe once they jump from the ski ramp. Given that ramp A has an angle(theta)A = 25° with the horizontal. (a) Calculate the initial speed, VA if the skier lands on the ground at point B.
- John starts on a walk from his house at 9 AM. He reaches his destination 4.5 km away from his house at 10:00 AM. What was John’s average speed? A. 0.5 kph B. 0.43 kph C. 3 kph D. 4.5 kphPlease answer this NEATLY, COMPLETELY, and CORRECTLY for an UPVOTE. A motorist is about to enter the exit ramp of a highway. When it is 50m before reaching A (along the straight path), the motorist travels at 80km/h, decreasing at the rate of 0.5m/s2until it reaches B. After it reaches B, it travels at a constant speed. Determine the magnitude of the acceleration: just after A just before B just after BA train is traveling at 60 km/hr. If its brakes give the train a constant deceleration of O.5 m/s, find the distance from the station where the brakes should be applied so that the train will come to a stop at the station. How long will it take the train to stop?