The flexible cable used to tether the balloon shown in Fig. PS-104 weighs 7.0 N/m and is 100 m long. The bal- loon exerts a buoyant vertical force of 2000 N on the cable at end B. Determine The force exerted by the wind on the balloon. F wind B 30°
Q: There are two liquids in the container in the picture: oil of density ρu=820kg/m3 and water of…
A: ρu=830 kgm3ρw=998 kgm3ω=10 radsecD=.76 mh1=.3 mh2=.45 mH=.9 m
Q: Ground reaction forces are measured during a sprinter's third step on the track. The peak resultant…
A: Given dataAngle θ = 690Ground reaction force F = 1242NF = Fx+FyF =Fcos690i+Fsin690jF…
Q: A 4-m-long quarter-circular gate of radius 4 m and of negligible weight is hinged about its upper…
A:
Q: The density of a floating body can be determined by tying weights to the body until both the body…
A: Given: The weight of wood log in air = 1400 N The density of the lead = 11300 kg/m3 The mass of lead…
Q: Determine the horizontal and vertical components of the total force on the gate of Fig. J. The width…
A:
Q: Find the force P required to hold the gate in the position as shown in the figure. The gate is 5…
A: Given data: H=2 mR=2 mWg=5 m Need to determine the force P required to hold the gate in the position
Q: Sam, whose mass is 68 kg , straps on his skis and starts down a 68 m -high, 20∘ frictionless slope.…
A:
Q: The horizontal fuel tank with a circular cross section, d=2.6 m and length l=9.6 m, is completely…
A: Given data, Diameter of circular fuel tank, d = 2.6 m Length of the tank, l = 9.6 m Density of the…
Q: The flexible cable used to tether the balloon shown in Fig. loon exerts a buoyant vertical force of…
A: Given data: The weight of the cable per meter is W=7.0 N/m. The length of the cable is L=100 m. The…
Q: 10. A ship having a displacement of 24,000 tons and a draft of 34 feet in ocean enters a harbor of…
A:
Q: Q5/ The 20-ft-long gate of Fig. 15 2 quarter circle 6 ft and is hinged at H. Determine the…
A: Data given- r = 6 ft L = 20 ft
Q: B19 An object with a volume of 1.0 x 10 m' and density 4.0 x 10* kgm- floats on water in a tank of…
A:
Q: A surface buoy is located in 180 ft of water and is moored with a wire rope weighing 3 lb/ft. The…
A:
Q: A flotation buoy has mass 806 kg, volume 1.43 m, and is attached to the sea floor by a cable in such…
A: Given Mass of buoy, m = 806 kg Volume of buoy, V = 1.43 m3 Density of sea water = 1025 kg/m3…
Q: Q4) Set up the differential equations for the two masses [Fig.1]
A:
Q: The spherical balloon is 40 ft in diameter and surrounded by air at 60°F and 29.92 in Hg abs. (a) If…
A:
Q: The volume of the cylindrical body is 0.04 m³ and its total mass is M... Kg. The base radius of the…
A: Given data: V=0.04 m3M=88 kgr=0.12 m Need to determine the condition of the cylinder when it through…
Q: Situation. A right circular cylinder having a diameter of 1.00 m and weighing 900 N is held in…
A:
Q: The hemispherical dome in Fig. (4) weighs 30 kN and is filled with water and attached to the floor…
A:
Q: The 6-ft-radius waterwheel in Fig. is being used tolift water with its 1-ft-diameter half-cylinder…
A: The data given is, The radius of the waterwheel, R = 6 ft Speed of the waterwheel, N = 10 rpm
Q: (Force on plane surface) The rectangular gate CD of the figure below is 1.7 m wide and 2.0 m long.…
A:
Q: The rectangular gate CD is 1.8 m wide and 2 m long as shown in the figure below. Water 2.0 m 2.0 m…
A:
Q: Calculate the fluid force on one side of a righttriangular plate with edges 3 ft, 4 ft, and 5 ft if…
A: Consider similar triangles 4sin60°-(6-y)x=4sin60°3x=12sin60°-18+3y4sin60°=63-18+3y23L(y)=63-18+3y23
Q: Determine the magnitude and line of action of the hydrostatic force on the gate shown in Fig. below.…
A:
Q: The sum of the components of the pressure and wall shear forces in the direction normal to the flow…
A: Whenever a body moves through the fluid, it is acted upon by the two forces, one is pressure forces,…
Q: Gate AB is 1.5 m wide into the paper and opens to let fresh water out when the ocean tide is…
A: GIVEN :-Width of gate : w=1.5 mL=3 mS.G.=1.025 ρw=1025 kg/m3h=2.95 mSOLUTION :-Area of gate AB :…
Q: What lift does the balloon exert at an elevation of 16km, assuming that the volume has increased…
A: Given data: Elevation = 16 km Initial Volume = V Final Volume = 1.1V Unit weight of air = 2.50 N/m3
Q: If the wall AB shown is 48 meter long calculate the total force (in the uhlt of KN) on the wall due…
A:
Q: Caleulate the magnitude 4 direction of fore exerted on the three-quarter cylinder (ABCD), shown in…
A:
Q: A heavy car plunges into a lake during an accident and lands at the bottom of the lake on its…
A: subject :fluid mechanics
Q: 1.5 m H F A 4.2m water 30°
A:
Q: A closed cylindrical container of length 0.6 m and diameter 0.3 m is full of oil of sg = 0.85. It is…
A:
Q: The uniform 20 Mg triangular gate is 1.5 m wide at B and is hinged at A. The gate rests on a smooth…
A: When a surface is submerged in a fluid, the fluid exerts forces on the surface. These forces must be…
Q: A fire helicopter carries a 650-kg bucket of water at the end of a 20.0-m long cable. Flying back…
A: Givenm=650kgL=20mV=40m/sθ=38o
Q: Q5/ P The 20-ft-long gate of Fig. 1s 2 quarter circle and is hinged at H. Determine the horizontal…
A: As per given question We have to determine horizontal force P
Q: The 10-m wide gate restrains water at a depth of 6ft. Calculate the magnitude of the hinge reaction…
A: Consider W1 and W2 as the weight of the water in the different segments of the gate, R be the…
Q: The door of a jet liner has dimension of 2.3m x 1.2m. if the inside pressure of cabin is 100kpaa ,…
A:
Q: A spherical helium balloon has a total mass of 3 kg. It settlesin a calm standard atmosphere at an…
A: Given data: Mass of the balloon, m = 3 kg. The altitude of the balloon, h = 5500 m. From the table…
Q: What happens to the buoyant force acting on the airship as it rises in the air? Does it increases or…
A: According to the Archimedes Principle, the buoyant force is equal to the weight of the fluid…
Q: (c) A Gate AB in Fig. 1(c) is 1.2 m long and 1.0 m width. Neglecting atmospheric pressure, determine…
A: Length of gate AB = 1.2 m Width = 1 m SG of oil = 0.82
Q: A large tank weighing 80 N and containing 0.25 m³ of water, is pulled horizontally by a force of 100…
A:
Q: The parabolic shaped gate with a width of 6 m shown below is hinged at point B. Compute for the…
A: The pressure exerted by the fluid at a point which is located at a depth of h from the surface is…
Q: The rectangular gate CD is 1.8 m wide and 2 m long as shown in the figure below. Water 2.0 m 2.0 m…
A:
Q: The 20-ft-long gate of Fig. 1s a quarter circle and is hinged at H. Determine the horizontal force,…
A:
Q: In a hydraulic car lift, the input piston has a radius of 2 cm and a negligible weight. The output…
A:
Q: A square box of side 1 m having mass 40 kg is submergend into the water. A crane used to pull the…
A: Given data: length of sides of a square box, l = 1 m. Mass of the square box, m = 40 kg. Calculate…
Q: When floating in water (SG = 1.0), an equilateral triangular body (SG = 0.9) might take one of the…
A: We have given When floating in water (SG = 1.0), an equilateral triangular body (SG = 0.9) might…
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 4 images
- An aluminum block (SG-2.5) has a dimension of 0.1 m x 0.1 m x h meters. It is floating in mercury (SG-13.6) and the submerged height of the block is 0.90 m. Determine the weight (kN) of the block.The door of a jet liner has dimension of 2.3m x 1.2m. if the inside pressure of cabin is 100kpaa , what force is exerted on the door when the plane flies at an altitude where the outside pressure is 15 kpaa.The 1.5-in (0.125-ft) gap between two large plane surfaces is filled with SAE-30 oil at 80 °F (μ=0.0063 lb.s/ft2). What force is required to drag a very thin plate of 5-ft2 area between the surfaces at a speed of 0.5 ft/s if this plate is equally spaced between the two surfaces.
- What happens to the buoyant force acting on the airship as it rises in the air? Does it increases or decreases? ExplainA wheel tractor has a 200HP engine.If the weight of the wheel tractor is 30 tons and the weight on the drivingwheels is 50% of this weight, and it is operating at an altitute of 1000m above sea level, at an average temperature of 25 degree celcius, and at an average speed of 12km/hr. What is the maximum available rimpull if thecoefficient of traction is 0.25?. Take rimpull efficiency as 85%Spaces h1=15 mm and h2=20 mm wide between upper and lower stationary plates and a very thin moving plate is filled with crude oil (oil =7.18x10-3 Pas) and water (water =1.00x10-3 Pas), respectively. What force is required to drag the plate of 0.5 m2 area between the surfaces at a speed of v=0.15 m/s. Assume linear velocity profile
- 1. A ship weighing 7200 tons has a KG of 5.20 m, a KB of 3.12 m and a KM of 5.35 m. In the voyage, has used 300 tons of fuel with Kg 0.6 m. If the free surface effect is neglected and assuming KM remains constant, calculate the angle of inclination of the ship.A spherical helium balloon has a total mass of 3 kg. It settlesin a calm standard atmosphere at an altitude of 5500 m.Estimate the diameter of the balloon.An oil tanker 3m wide 2 m deep and 10 m long contains oil of density 800 kg/m3, if the tanker is closed and completely filled with the oil and accelerated horizontally at 3m/s2. a.) determine the total liquid thrust (hydrostatic force) on the front end. (in kN) b.) determine the total liquid thrust (hydrostatic force) on the rear end. (in kN)
- There are two liquids in the container in the picture: oil of density ρu=820kg/m3 and water of density ρw=998 kg / m3. Calculate max. pressure in the vessel if it rotates at an angular velocity ω=10 s-1. D=0.76m, H=0.9m, h1=0.3m, h2=0.45mYou bet your friend that he cannot completely submerge your beach ball, which has a diameter of 60 cm and negligible mass. He must balance on the beach ball, not jump on it. What is the smallest mass that your friend can have and be successful? Assume that the sea water density is 1024kg/m^3.The density of a floating body can be determined by tying weights to the body until both the body and the weights are completely submerged, and then weighing them separately in air. Consider a wood log that weighs 1400 N in air. If it takes 34 kg of lead (? = 11,300 kg/m3) to completely sink the log and the lead in water, determine the average density of the log.