An air bubble in a lake rises starting from the bottom all the way up to the surface. The initial volume of the bubble is 12 cm3 and the temperature at the bottom of the lake is 5 0C. The volume of the bubble increases to 98 cm3 as it reaches the surface and the surface temperature is at 200 C. Assume the air trapped inside the bubble is ideal; find the depth of the lake.
An air bubble in a lake rises starting from the bottom all the way up to...
A small bubble rises from the bottom of a lake with an initial volume of 1.4 mL and where the temperature and pressure are 4°C and 3.0 atm, respectfully. At the water’s surface the temperature is 25°C and the final volume was 4.75 mL. Calculate the final pressure of the bubble as it reaches the surface.
Volume of an air bubble increases by a factor 4 as it rises from the bottom to the top of a lake. What is the depth of the lake in meters? Take temperature constant, atmostpheric pressure 100 kPa and density of water 1000kg/m^3
An air bubble at the bottom of a lake 35.0 m deep has a volume of 1.27 cm3. If the temperature at the bottom is 5.8 ∘C and at the top 20.0 ∘C, what is the volume of the bubble just before it reaches the surface?
A spherical bubble rises from the bottom of a lake whose temperature is 10 oC at the bottom and 22 oC at the surface. If the bubble doubles its volume by the time it reaches the surface, how deep is the lake? (please be specific on how you calculate the volume.)
A diver observes a bubble of air rising from the bottom of a lake (where the absolute pressure is 3.45 atm) to the surface (where the pressure is 1.00 atm). The temperature at the bottom is 3.9°C, and the temperature at the surface is 21.3°C. (a) What is the ratio of the volume of the bubble as it reaches the surface to its volume at the bottom?
A diver observes a bubble of air rising from the bottom of a lake (where the absolute pressure is 2.50 atm ) to the surface (where the pressure is 1.00 atm). The temperature at the bottom is 4.0 ∘C and the temperature at the surface is 23.0 ∘C. What is the ratio of the volume of the bubble as it reaches the surface to its volume at the bottom?
A small bubble rises from the bottom of a lake, where the temperature and pressure are 6C and 3.0 atm, to the water's surface, where the temperature is 25C and the pressure is 0.75 atm. Calculate the final volume of the bubble if its initial volume was 3.1 mL
A diver named Jacques observes a bubble of air rising from the bottom of a lake (where the absolute pressure Is 3.50 atm) to the surface (where the pressure is 1.00 atm). The temperature at the bottom is 4.00 °C, and the temperature at the surface is 23.0 °C.Part A What is the ratio of the volume of the bubble as it reaches the surface (Vs) to its volume at the bottom (Vb)? Part B If Jacques were to hold his breath the...
An air bubble released by a submersible vehicle, 120 m below the surface of a lake, has a volume of 1.55 cm3. The surface of the lake is at sea level, and the density of the lake water can be approximated as that of pure water. As the bubble rises to the surface, the temperature of the water and the number of air molecules in the bubble can each be approximated as constant. Find the volume (in cm3) of the...
5. A small bubble rises from the bottom of a lake, where the temperature and pressure are 4 °C and 3.0 atm, to the water's surface, where the temperature is 25 °C and the pressure is 0.95 atm. Calculate the final volume of the bubble if its initial volume was 2.1 mL