|
ID/Type |
Web Link or WA Question Code |
Local download |
Launch from browser |
Description |
|
E.15.01 |
APB-15-01-04 |
density-01.iwp |
density-01.iwp |
A block is lowered by a string into a fluid. |
|
E.15.01 |
APB-15-01-05 |
utube-01.iwp |
utube-01.iwp |
At t = 0, a u-tube contains water (blue). Another fluid (orange) is separated from the water by a partition. When the animation starts, the partition self destructs, and the liquids move to their equilibrium heights. Determine the density of the orange fluid. The grid units are 0.050 m. |
|
E.15.02 |
APB-15-02-01 |
fluid-dynamics-variable-pipe-01c.iwp |
fluid-dynamics-variable-pipe-01c.iwp |
Blood flows in an artery from left to right. The buildup of plaque reduces the diameter of the artery on the right. Determine the speed of blood flow in the constricted artery and the drop in pressure as the blood enters the constricted region. |
|
E.15.02 |
APB-15-02-02 |
fluid-dynamics-variable-pipe-02b.iwp |
fluid-dynamics-variable-pipe-02b.iwp |
Water travels through a pipe on the left and then rises to a higher elevation to flow through a pipe of different diameter on the right. What is the velocity of the water in the higher pipe and what is the difference in pressure between the higher and lower pipes? |
|
E.15.02 |
APB-15-02-03 |
fluid-dynamics-torricelli-03.iwp |
fluid-dynamics-torricelli-03.iwp |
Water drains from a tank through a spout in the side. Determine the initial height of the water in the tank above ground level. |
|
E.15.03b |
APB-15-03-02t |
fluid-statics-04c.iwp |
fluid-statics-04c.iwp |
A block is lowered by a string at constant velocity into water. A digital scale provides a readout of the tension force. Determine the density of the block. |
|
E.15.03b |
APB-15-03-04v2 |
fluid-statics-07.iwp |
fluid-statics-07.iwp |
An ice cube floats in water. The level of the water is unchanged as the ice melts. |
|
E.15.03b |
APB-15-03-06t |
fluid-statics-06b.iwp |
fluid-statics-06b.iwp |
A beaker of water containing a floating object is accelerated by a piston. Initially, the beaker is at rest and the forces are balanced. When the animation is run, the acceleration quickly increases from 0 to the maximum value given in the Inputs column. The value of the acceleration at any time is given under Outputs. |
|
E.15.03b |
APB-15-03-06t |
fluid-statics-06c.iwp |
fluid-statics-06c.iwp |
A beaker of water containing a floating object is accelerated by a piston. The forces acting on the object are shown in the force diagram. Initially, the beaker is at rest and the forces are balanced. When the animation is run, the acceleration quickly increases from 0 to the maximum value given in the Inputs column. The value of the acceleration at any time is given under Outputs. |
|
P16 |
Using Archimedes'
Principle |
fluid-statics-06d.iwp |
fluid-statics-06d.iwp |
A beaker of water containing a cubical floating object is
accelerated by a piston. Initially, the beaker is at rest and the forces are
balanced. When the animation is run, the acceleration quickly increases from 0 a
maximum. The length of a side of the object and the depth of submersion are
given as outputs. Determine the value of the acceleration. |