**AP-20** A wood cube of density 750 kg/m³. The cube measures 30.0 cm on all three sides. The cube is floating in water, which has a density of 1,000 kg/m³, as shown to the right.**Tasks:**a) Draw the free body diagram for the cube and apply \( F_{\text{net}} = ma \) to the cube.b) Find \( d \), the distance of the bottom of the cube below the surface of the water.c) Find the height \( h \) of the top of the cube above the surface of the water.**Diagram Explanation:**The diagram shows a cube labeled "Wood" partially submerged in water. The full vertical length of the cube is 30.0 cm. The submerged depth of the cube is labeled \( d \), and the height above the water is labeled \( h \). An arrow points from the top of the cube to the water surface, indicating the height \( h \), while another arrow goes from the water surface to the cube's bottom, indicating depth \( d \). The water is labeled "Water."

Given: The wood density ρwood =750 kg/m3 ; the water density is ρwater =1000 kg/m3 ; and the side of…

AP-20 A wood cube of density 750kg/m. The cube measures 30.0cm on all three sides. The cube is floating in water, which has a density of 1,000kg/m', as shown to the right. Wood 30.0em a) Draw the free body diagram for the cube and apply Fnet ma to the cube. b) Find d, the distance of the bottom of the cube below the surface of the water. c) Find the height h of the top of the cube above the surface of the water. Water

AP-20 A wood cube of density 750kg/m. The cube measures 30.0cm on all three sides. The cube is floating in water, which has a density of 1,000kg/m', as shown to the right. Wood 30.0em a) Draw the free body diagram for the cube and apply Fnet ma to the cube. b) Find d, the distance of the bottom of the cube below the surface of the water. c) Find the height h of the top of the cube above the surface of the water. Water

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

6. A certain body weighs 12 N in air and 10 N when immersed in water, Find its total volume and its density. With sketch of multiple free body diagram, solution, and Given in the problem.
Asap plzzx
Calculate the contact angle (in degrees) for olive oil if capillary action raises it to a height of 7.05 cm in a glass tube with a radius of 0.100 mm. O Is this value consistent with that for most organic liquids? No. The contact angle is nearest to the value for water-silver. Yes. The contact angle is nearest to the value for most organic liquids-glass. No. The contact angle is nearest to the value for kerosene-glass. No. The contact angle is nearest to the value for mercury-glass. 0000
Q17 only
Water has a density of approximately 1- decide if the block will sink or float. em A hollow iron cube measures 5 cm on each side and has a mass of 20g. Will the iron cube sink or float? Objects will sink if their density is greater than water and will float if their density is less. For the following problem, O Float O Sink
Q1\ A ball made of INOX AISI 365 steel with density of 8.52 gr/cm3 was used to determine the viscosity of oil with specific gravity of 0.91. In the viscometer, the ball traveled 19 cm in 2.2 seconds. If the diameter of the ball is 2.95 mm, what is the viscosity of the oil in pa.s ? assume that water density is 1000 kg/m. Q2\ How is the Pycnometer used to determine the density of solid materials such as a handful of metal balls? Explain in short steps. Q3| In the dead weight calibrated experiment, there were differences between the theoretical and experimental (practical) pressures. What are the causes of these differences? (Good Luck)
A liquid-filled tube called a manometer can be used to measure the pressure inside a container by comparing it to the atmospheric pressure and measuring the height of the liquid. Such a device (filled with water) is shown in the figure, measuring the pressure inside a balloon filled with an unknown gas. The water level on the side of the manometer which is open to the air is 22.3 cm higher than on the side connected to the balloon. a) Find the gauge pressure in the balloon, in units of Pa. Recall the density of water is 1000 kg/m3. b) Find the absolute pressure in the balloon, in units of Pa.
A cubical block of wood, 10.0 cm on a slide, floats at the interface between oil and water with its lower surface 1.50 cm below the interface. The density of the oil is 0.79 gm-3. Calculate the absolute pressure at the upper face of the block
A 10 kg ball weighs 98 N in air and weighs 75 N when submerged in water. Determine the buoyant force of the water on the ball. а. 1.31N O b. 7.65N O C. 0.765N O d. 23N e. 173N
Please answer this with in 30 mins ! I will upvote .