One common matchbox is 13.44 cm long, 5.920 cm wide, and 2.54 cm deep. Assume that...

An aquarium tank is 98 cm long, 35 cm wide, and 38 cm deep. It is...

An aquarium tank is 98 cm long, 35 cm wide, and 38 cm deep. It is filled to the top. (a) What is the force of the water on the bottom (98 cm ✕ 35 cm) of the tank? N (b) What is the force of the water on the front window (98 cm ✕ 38 cm) of the tank? Hint: This problem requires an integration. N

1. A block is 7 cm wide, 8 cm long, and 2 cm tall and has...

1. A block is 7 cm wide, 8 cm long, and 2 cm tall and has a mass of 67 g. a) Calculate the volume of the block. b) Calculate the density of the block. c) How deep will the bottom of the block be if it is floating in water with the 7 x 8 cm side face down? d) How much extra weight can the block support without sinking?

The 1.5 cm wide rectangular channel in the laboratory was used to create a hydraulic jump;...

The 1.5 cm wide rectangular channel in the laboratory was used to create a hydraulic jump; the following data were collected: y1 = 1.25 ± 0.05 cm; y2 = 5.6 ± 0.1 cm; Q = 8 liters/30 sec Assume the water temperature was 20°C. (Note the mixed units above – please present your solutions in si units) (a) Use the theoretical equation to predict the conjugate depth ratio, y2/y1, based on the initial depth, y1. Compare the value to the...

A parabolic trough 1 m wide and 10 m long with no end support plates is...

A parabolic trough 1 m wide and 10 m long with no end support plates is 30 cm deep and has a focal length of 20.83 cm. Calculate its optical efficiency at a 30° incidence angle for perfect optics and tracking if its reflector reflectance is 80%, τα product is 75%, and if the receiver supports shade 5% of the aperture.

A swimming pool has the following interior measurements: 3 meters long, 2 m wide and 120...

A swimming pool has the following interior measurements: 3 meters long, 2 m wide and 120 cm deep. If you find water up to 4/5 of its capacity, how many 20 cm diameter cylindrical containers 30 cm high can be filled with the pool water? Round to the nearest integer. a. 942 b. 191 c. 764 d. 611

The sides of a small rectangular box are measured to be 1.45 ± 0.03 cm, 2.30...

The sides of a small rectangular box are measured to be 1.45 ± 0.03 cm, 2.30 ± 0.04 cm, and 3.4 ± 0.2 cm long. Calculate its volume and uncertainty in cubic centimeters. (Note that uncertainties should be reported to one significant figure.) volume_________cm3 uncertainty_______cm3

A swimming pool is 50 ft wide and 100 ft long and its bottom is an...

A swimming pool is 50 ft wide and 100 ft long and its bottom is an inclined plane, the shallow end having a depth of 4 ft and the deep end, 7 ft. Assume the pool is full of water. (Round your answers to the nearest whole number. Recall that the weight density of water is 62.5 lb/ft3.) (a) Estimate the hydrostatic force on the shallow end. (b) Estimate the hydrostatic force on the deep end. (c) Estimate the hydrostatic...

A 1200 mm deep by 750 mm wide post-tensioned simply supported beam is shown below. The...

A 1200 mm deep by 750 mm wide post-tensioned simply supported beam is shown below. The beam spans 12.0 m and is subject to a superimposed dead load of 50 kN/m and a live load of 35 kN/m. Both the superimposed dead load and live load are applied after transfer (after stressing has taken place). The tendon is located at the mid-height of the beam at each end, and its centreline sits 50 mm from the base at midspan. The...

A long horizontal hose of diameter 3.8 cm is connected to a faucet. At the other...

A long horizontal hose of diameter 3.8 cm is connected to a faucet. At the other end, there is a nozzle of diameter 1 cm. Water squirts from the nozzle at velocity 18 m/sec. Assume that the water has no viscosity or other form of energy dissipation. 1) What is the velocity of the water in the hose ? m/s 2) What is the pressure differential between the water in the hose and water in the nozzle ? Pa 3)...

A freshly baked loaf of bread (30cm long, 15cm high, 10 cm wide) is removed from...

A freshly baked loaf of bread (30cm long, 15cm high, 10 cm wide) is removed from an oven and set on the counter (assumed insulated) to cool. The bread is at 125°C initially (assume uniform) and the room is at 25°C. Thermal conductivity and diffusivity for bread are k=0.05 W/m•K and α=5x10-7 m2/s, and the convective heat transfer coefficient is h=10 W/m2K. (a) Write down the governing differential equation in three-dimension representing this problem. (b) Write down the boundary conditions...