A force of 250 Newtons is applied to a hydraulic jack piston that is 0.01 meters in diameter. If the piston which supports the load hasa diameter of 0.10 m, approximately how much mass can belifted. Ignore any difference in height between the pistons.

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Szeteib · Accepted Answer

P1=P2&amp;nbsp;F1A1=F2A2&amp;nbsp;F1πr12=F2πr22&amp;nbsp;you can revoke the &quot;π&quot;s on both sides then you solve for Fand you have:&amp;nbsp;F2=F1(r2r1)2&amp;nbsp;remember diameter = 2 * radius... the force you obtain (f2) represents the maximum weight that can be lift

xleb123 · Accepted Answer

The pressure exerted by the force on the small piston can be calculated using the formula:P1=FA1where P1 is the pressure, F is the force, and A1 is the area of the small piston.The pressure is transmitted to the large piston, so we can set it equal to the pressure on the large piston:P1=P2Using the formula for pressure on the large piston:P2=FliftedA2where Flifted is the force that can be lifted and A2 is the area of the large piston.Equating the two pressures:FA1=FliftedA2Solving for Flifted:Flifted=F·A2A1Given that the force F is 250 Newtons, the diameter of the small piston is 0.01 meters, and the diameter of the large piston is 0.10 meters, we can calculate the areas as follows:A1=π4·(0.01)2A2=π4·(0.10)2Substituting these values into the equation for Flifted:Flifted=250·π4·(0.10)2π4·(0.01)2Simplifying:Flifted=250·0.1020.012Calculating:Flifted≈25000 NewtonsTherefore, approximately 25,000 Newtons of mass can be lifted.

Jazz Frenia · Accepted Answer

Step 1:The formula to calculate pressure is given by:P=FAwhere:P is the pressure,F is the force applied, andA is the area on which the force is applied.Given that the force applied is 250 Newtons and the diameter of the smaller piston is 0.01 meters, we can calculate the area (A1) using the formula for the area of a circle:A1=π·d124 where d1 is the diameter of the smaller piston.Substituting the values, we have:A1=π·(0.01m)24Step 2:Next, let&#039;s calculate the pressure (P1) applied to the smaller piston:P1=FA1Substituting the given force and calculated area, we get:P1=250Nπ·(0.01m)24Now, according to Pascal&#039;s law, this pressure is transmitted equally to the larger piston. The pressure (P2) acting on the larger piston is the same as P1:P2=P1Step 3:Next, we can calculate the force (F2) acting on the larger piston using the formula for pressure:P2=F2A2 where A2 is the area of the larger piston. We can calculate A2 using the same formula as before:A2=π·d224 where d2 is the diameter of the larger piston.Substituting the given diameter, we get:A2=π·(0.10m)24Now, let&#039;s solve for F2:P2=F2A2Substituting P2 (which is equal to P1) and A2, we have:P1=F2π·(0.10m)24Step 4:Finally, we can rearrange the equation to solve for F2:F2=P1·π·(0.10m)24Now we have the force acting on the larger piston. To determine the mass that can be lifted, we can use Newton&#039;s second law:F=m·gwhere:F is the force applied (in this case, F2),m is the mass, andg is the acceleration due to gravity.Rearranging the equation to solve for m:m=FgSubstituting the value of F2 and taking g as approximately 9.8 m/s², we can calculate the mass:m=F29.8m/s2Substituting the value of F2 calculated earlier, we get:m=P1·π·(0.10m)249.8m/s2Simplifying this expression will give us the approximate mass that can be lifted.

fudzisako · Accepted Answer

Result: 0.255 kgSolution:Flarger=Fsmaller·AsmallerAlargerwhere:Flarger is the force exerted by the larger piston,Fsmaller is the applied force on the smaller piston,Asmaller is the area of the smaller piston, andAlarger is the area of the larger piston.Given that the force applied on the smaller piston is 250N, the diameter of the smaller piston is 0.01m, and the diameter of the larger piston is 0.10m, we can calculate the mass that can be lifted.First, let&#039;s calculate the areas of the pistons:Asmaller=π·dsmaller24=π·(0.01m)24Alarger=π·dlarger24=π·(0.10m)24Substituting the given values, we can calculate the areas:Asmaller=π·0.00014m2Alarger=π·0.014m2Now, we can substitute the values of the forces and areas into the formula to calculate the force exerted by the larger piston:Flarger=250N·π·0.00014π·0.014Simplifying the expression, we get:Flarger=250·0.00010.01NCalculating further:Flarger=2.5NFinally, to calculate the mass that can be lifted, we can use the formula:Force=mass·accelerationSince the acceleration due to gravity is 9.8m/s2, we can rearrange the formula to solve for mass:mass=ForceaccelerationSubstituting the values, we have:mass=2.5N9.8m/s2Calculating the mass, we find:mass≈0.255kgTherefore, approximately 0.255 kg of mass can be lifted.

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A force of 250 N is applied to a hydraulic jack piston that is 0.01 m in diameter. If the piston which supports the load hasa diameter of 0.10 m, approximately how much mass can belifted. Ignore any difference in height between the pistons.

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