do first Energy Density II Invert a test tube or graduated cylinder in a bucket of...
do first Energy Density II Invert a test tube or graduated cylinder in a bucket of water such that some water is "trapped" inside it above the level in the bucket as shown in the diagram. Measure your values for d and h. 1. P. The fluid is in equilibrium, so every point has the same value for energy density. What is the numerical value for the energy density of point a (in Pa)? 2. A- 4-101,300 31m Complete the table below for points a, b, and c in the fluid. 3. PE Point m m 104,300 1o1 300 io1,300 h0, 300 b (loo0) (9.8)1.01) h=7 d=e.4 5.4cm 4.7+351pS49.7p amsaad ononpe ap papeur gage Press ssal o pary mmo osge) ame ano a a naadga e amssad .. ,a grab anf no snes a usdaige 1801- 1.443 10 pa (mIE D-EI1) 5-3ut pa qjo sanyes asa anges ap I 4ciSity 5 less i aneAa saop
do first Energy Density II Invert a test tube or graduated cylinder in a bucket of water such that some water is "trapped" inside it above the level in the bucket as shown in the diagram. Measure your values for d and h. 1. P. The fluid is in equilibrium, so every point has the same value for energy density. What is the numerical value for the energy density of point a (in Pa)? 2. A- 4-101,300 31m Complete the table below for points a, b, and c in the fluid. 3. PE Point m m 104,300 1o1 300 io1,300 h0, 300 b (loo0) (9.8)1.01) h=7 d=e.4 5.4cm 4.7+351pS49.7p amsaad ononpe ap papeur gage Press ssal o pary mmo osge) ame ano a a naadga e amssad .. ,a grab anf no snes a usdaige 1801- 1.443 10 pa (mIE D-EI1) 5-3ut pa qjo sanyes asa anges ap I 4ciSity 5 less i aneAa saop