The hydraulic oil in a car lift has a density of 8.30 102 kg/m3. The weight of the input piston is negligible. The radii of the input piston and output plunger are 7.60 10-3 m and 0.125 m, respectively. What input force F is needed to support the 27000 N combined weight of a car and the output plunger under the following conditions?
(a) The bottom surfaces of the piston and plunger are at the same level.
(b) The bottom surface of the output plunger is 1.10 m above that of the input piston.
2007-12-02 03:25:33 · 1 answers · asked by yummy_girlscout 1 in Science & Mathematics ➔ Physics
In both cases, the car & output plunger are being held up by the pressure of the oil underneath. The oil pressure must be sufficient to produce an upward force of 27000N to counteract the weight. Use the formula:
Force = pressure × area
27000N = pressure × (π(0.125m)²)
Solve for pressure:
(1): pressure at plunger = 27000N / (π(0.125m)²)
> (a) The bottom surfaces of the piston and plunger are at the same level.
In this case, the oil pressure directly under the plunger is the same as the oil pressure at the piston:
(2): pressure at piston = pressure at plunger = 27000N / (π(0.125m)²)
Furthermore
(3): pressure at piston = F / (area of piston) = F / (π(7.6×10^-3m)²)
Combine (2) and (3), and solve for F.
> (b) The bottom surface of the output plunger is 1.10 m above that of the input piston.
In this case, the oil pressure at the piston is NOT the same as the oil pressure at the plunger. This is because fluid pressure increases with depth. So in this case:
(4): pressure at piston = (pressure at plunger) + ρgh
where "ρ" is the oil's density, and "h" is the difference in height (in this case, 1.0 m). So combine (1) and (4):
(5): pressure at piston = (27000N / (π(0.125m)²)) + ρgh
Combine (3) and (5), and solve for "F".
2007-12-02 03:59:35 · answer #1 · answered by RickB 7 · 2⤊ 0⤋