A 200 x 100 x 50 mm steel block is subjected to a hydrostatic pressure of 15 MPa. The Young's modulus and Poisson's ratio of the material are 200 GPa and 0.3 respectively. The change in the volume of the block in mm3 is
Q: !A rectangular gate having a width of 1.5 m is located in sloping side of a tank as shown in fig.…
A: Given, W = 1.5 m
Q: Helium is used inside a 14.92m diameter spherical balloon. The said substance is at 106.463 kPa and…
A:
Q: Determine stress Force=100 kg Cross sectional area =10 cm2
A:
Q: An infinitely long cylindrical container has a cross section area of radius R, and is placed…
A: Pressure is caused by the force pressing on an area, according to physics. The weight operating on a…
Q: 1. Consider the gate (A-B-C) shown in the figure below. The gate is hinged at point A and is…
A:
Q: A cylinder is made of steel plate is intended to be used as a container for compressed air. The…
A:
Q: The wires AB and AC are made of steel, and wire AD is made of copper. Before the 150-lb force is…
A: By using the equations of equilibrium ;ΣFx=0 ⇒FAC cos 45°-FAB cos 45°=0FAC=FAB=F-1ΣFy=0⇒FAC…
Q: A dam has a semi-circular gate at the bottom that is 4 m in diameter. The dam is 12 m hig and filled…
A:
Q: A: Figure (1) shows an open-water tank has two rectangular gates. If the density is 1000 kg gates is…
A: Givenρ=1000 kg/m3w=1.5m
Q: Calculate the melting point of ice under a pressure of 10 MPa in Kelvin. Assume that the density of…
A: Given Pressure, P = 10 MPa Volume, v1 = 0.915g/cm3 v2 = 0.9980 g/cm3 Take…
Q: Determine the bulk modulus of elasticity of a fluid which is compressed in a cylinder from a volume…
A: Bulk Modulus of a compressible fluid is defined as the ratio of change in pressure to the volumetric…
Q: A water tank is 6 m in diameter and 14 m high, if the tank is to be completely filled .Determine the…
A: Given:d=6 mh=14 mσ=35 MPaρ=103 kg/m3
Q: (b) A cylindrical tank of outer diameter 3.0 m and wall thickness 20 mm is open at the top as shown…
A: givend=3m=3000mmt=20mmγ=9.81 kN/m3σc=8MPa
Q: In a container, the lower part of it contains water, while the upper part contains oil, as shown in…
A:
Q: Air is located inside a cylinder under a piston. The piston-cylinder device with the 5Kg weight just…
A:
Q: Problem An infinitely long cylindrical container has a cross section area of radius R, and is placed…
A: Given : To find : Pressure distribution
Q: A closed cylinder of diameter 30 cm and height pf 20 cm is completely filled with water. Calculate…
A:
Q: A 601.7 mL sample of oil is subjected to a pressure increase of 9.2 MPa due to a piston, which…
A: givenvolume of the oil V1=601.7mLincrese in pressure P=9.2MPanow the volume occupied by the oil V2=…
Q: P1.12: An aluminium thin-walled sphere is used as a marker buoy. The sphere has a radius of 65 cm…
A:
Q: Ammonia weighing 22 kg is confined inside a cylinder at a volume of 8.1 m3 and 38 oC. The cylinder…
A: Given, Mass, m = 22kg Volume, V=8.1m3 Temperature, T=38°C=311K Molecular weight of Ammonia, M = 17…
Q: The top of a ladder weighing 20 kg and 6m long rests against a vertical wall and the foot of the…
A: This can be considered as a problem of equilibrium, where we consider the various forces acting…
Q: In a hydraulic system a master piston cylinder A is connected to two piston cylinders B andC…
A:
Q: A cylindrical vessel whose ends are closed by means of rigid flange plate is made of steel plate 3…
A: Given Thickness of steel plate (t) = 3mm Length of steel plate (L) = 500mm Internal diameter(d) =…
Q: Oil in a hydraulic cylinder is compressed from a initial volume 2 m3 to 1.96 m3. If the pressure oil…
A: Given:V1= 2 m3V2=1.96 m3P1=40 MPaP2=80 MPa
Q: 3. In the apparatus shown in Figure (a), 42 cm of oil column is poured into the left arm of the…
A: To solve part (a), we have applied the pressure balance equation about reference line, shown in…
Q: A concrete dam has the profile shown in figure 4. The dam retains water that is 10 m deep and 5 m…
A: This question is from fluid mechanics. We have to find hydrostatic thrust. Given density of water…
Q: Two somewhat heavy people enter an elevator. Based on their weight, the force that they exert on the…
A:
Q: RI R=2 m R2=3 m (water), 9. 10 m R2
A: The hydrostatic force experienced by the curved surface cab be found out in two components:…
Q: Determine the bulk modulus of elasticity of a liquid, if the pressure of the liquid is increased…
A: Compressibility is the one of the property of any fluid which shows that how much its volume will…
Q: Q: A (3.6 m) square gate provided in an oil tank is hinged at its top edge as shown in Figure. The…
A: GIVEN DATA - A SQUARE GATE GIVEN IN QUESTION HINGED AT A POINT WE HAVE TO CALCULATE FORCE F
Q: A cylinder is made of steel palte is intended to be used as a container for compressed air. The…
A:
Q: Determine the total force in kN on a circular plate of diameter 1.5 m which is placed vertically in…
A: Diameter of circular plate, d = 1.5 m Center of the plate from free surface of the water, h' = 2 m
Q: 8- In Fig. 3-13, an 8-m-diameter cylinder plugs a rectangular hole in a tank that is 3 m long. With…
A: Given: Diameter of the Cylinder plug (D)=8mLength of the rectangular hole (L)=3mHeight of the water…
Q: 5. A rod with uniform diameter contains water and another liquid with 2 density that is two times…
A:
Q: A piezometer connected to a pipe containing oil (Density = 860 kg/m3 ) reads 20 cm height. Determine…
A: Fluid is a state of matter which deforms continuously on the application of force externally,…
Q: percentage reduction in volume.
A: Given- Pressure - 13 * 106 N/m2 Bulk modulus - 2.2 Gpa need to calculate Percentage reduction in…
Q: A 0.75-cm-diameter spherical object is completely submerged in water. The buoyant force acting on…
A: Given: Diameter of the sphere, d= 0.75 cm The buoyant force acting on the object is calculated by…
Q: P1.9 A rubber balloon when fully inflated has a spherical shape with a radius of 0.3 m. The absolute…
A: For solution refer below images.
Q: A 4.9ft³ of water is compressed to 5000 psig. What is the volume decrease if the temperature is 60…
A:
Q: A 100 × 50 × 25mm steel block is subjected to a hydrostatic pressure of 5 MPa. The Young's modulus…
A: Data given- L = 100 mm W = 50 mm H = 25 mm So V = 100 × 50 × 25 = 125000 mm3 σ = 5 MPa E = 150…
Q: A 150mm* 50mm* 25mm steel block is subjected to a hydrostatic pressure of 10MPa. The Young's modulus…
A: Given:V=150mm*50mm*25mmP=10 MPaE=100GPaμ=0.1
Q: mechanics of deformable bodies The cylindrical tank has an outer radius of 1.5m and a wall…
A: Given Data⇒ Outer diameter of the cylindrical tank (D)=1.5 m Wall thickness (t)=25 mm=0.025 m…
Q: onsider a heavy car submerged in water in a lake with a flat bottom. The driver’s side door of the…
A:
Q: A thin-walled hollow sphere 3.8 m in diameter holds helium gas at 1767 kPa. Determine the minimum…
A:
Q: Liquid in a closed container with ₁-1000 cm³ is under pressure p₁-1×10 N/m². Volume of the liquid is…
A:
Q: press сompacting samples has a large cylinder which is 10.0 cm in diameter, and a small cylinder…
A: The pressure applied on the sample by the machine can be calculated using the formula given below…
Q: 2m 85cm Water, 20°C 4m Hg. 20°C A 3m B Fig
A: Given: The height of the mercury level is, hhg=85 cm. Assumption: The specific gravity of mercury…
Q: When the pressure on a given mass of liquid is increased from 3.0 MPa to 3.5 MPa, the density of the…
A: Given, Initial pressure = P = 3 MPa Final pressure = P' = 3.5 MPa Initial density = ρ = 500 kg/m3…
Find the change in volume of the block ,ASAP
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images
- The composite wall which is composed of 10 cm brick (k=0.40 W/m2-C), 2 cm cellotex (k=0.03 W/m2- OC), and 6 cm (k=0.30 W/m2-OC),has an outer (brick) temperature T=23 OC and an inner (plaster)temperature T=90 OC. Find the temperature between the cellotex andplaster in OC.The 40-ft-long A-36 steel rails on a train track are laid with a small gap between them to allow for thermal expansion. Determine the required gap d so that the rails just touch one another when the temperature is increased from T1 = -20F to T2 = 90F. Using this gap, what would be the axial force in the rails if the temperature rises to T3 = 110F? The cross-sectional area of each rail is 5.10 in2.A water tank is completely filled with liquid water at 60°C. The tank material is suchthat it can withstand tension caused by a volume expansion of 4%. Determine the maximum temperature rise allowed without jeopardizing safety. Take water coefficient of expansion (β) as 5.22 x 10-4 1/K at this temperature.
- Which spring, the truncated cone spring or the helical spring, would have a larger spring constant? Explain.1-kg ice has 7% more volume than 1-kg water. You fill a cast iron container with water at 0°C and close it tight without any escape for water inside so that when you freeze the water, all the water inside turns into ice at 0°C. When all the water freezes, what would be the pressure increase inside the container, if the bulk modulus of water is 6X109 N/m2. Give your answer in as the number a in aX109 N/m2. g=9.8 m/s2A steel rod, which is free to move, has a length of 200 mm and a diameter of 20 mm at a temperature of 15oC. If the rod is heated uniformly to 115oC, determine the length and diameter of this rod to the nearest micron at the new temperature if the linear coefficient of thermal expansion of steel is 12.5 x 10-6 m/m/C. Is there a stress on the rod at 115oC?
- 14. A commonly used method of fastening one part to another part iscalled “shrink fi tting.” A steel rod has a diameter of 2.0026 cm, and afl at plate contains a hole whose diameter is 2.0000 cm. The rod is cooledso that it just fi ts into the hole. When the rod warms up, the enormousthermal stress exerted by the plate holds the rod securely to the plate. Byhow many Celsius degrees should the rod be cooled?Calculate the melting point of ice under a pressure of 10 MPa in Kelvin. Assume that the density of ice under these condition is approximately 0.915g/cm3 and that of liquid water is 0.9980 g/cm3A spherical balloon filled with H2 gas to a volume of 3.35x10-2 m3 at 17 °C is carefully lowered into the sea to a depth of 50 m, where the seawater temperature is about 12 °C. Assume the gas is always in thermal equilibrium with the surrounding seawater. The atmospheric pressure at the surface is P0 = 1.013 x 105 N/m2 and the specific gravity of the seawater is 1.03. What is the change in thermal energy of the gas from surface to 50 m below?
- A newly produced pipe with diameter of 3 m and length 15 m is to be tested at 10 MPa using water at 15°C. After sealing both ends, the pipe is first filled with water and then the pressure is increased by pumping additional water into the test pipe until the test pressure is reached. Assuming no deformation in the pipe, determine how much additional water needs to be pumped into the pipe. Take the coefficient of compressibility to be 2.10 × 109 Pa.3.0 kg of steam at a pressure of 100 kPa are contained in a rigid sealed tank of volume 5.95 m3. The steam begins to cool as heat is transferred to the atmosphere. When the internal pressure reaches 10 kPa, the tank walls will collapse.a) What is the initial temperature of the steam in the tank (in oC)?b) What will the temperature be in the tank when the walls collapse (in oC)?c) Attheinstantofcollapse,whatisthemassofwaterinthevapourandliquidstate (in kg)?d) Deduce the work done for this processA container which has a volume of 0.1m3 is fitted with a plunger (movable piston) enclosing 0.5 kg of steam at 0.4 MPa. Calculate the amount of heat transferred and the work done when the steam is heated to 3000 C at constant pressure