A scuba diver is below the surface of the water when a storm approaches, dropping the air pressure above the water. Would a sufficiently sensitive pressure gauge attached to his wrist register this drop in air pressure?
A) Yes, if the gauge was designed to measure gauge pressure.
B) Yes, if the gauge was designed to measure absolute pressure.
C) Yes, if the gauge was designed to measure partial pressure.
D) No, the gauge would not register this drop in air pressure.
Give your reasoning.
A scuba diver is below the surface of the water when a storm approaches, dropping the...
I don't understand part b
3) If a scuba diver 1o.m below the water surface were to bold his breath and rise to the surface a) What would be the pressure change in the lungs? b) Assuming the ideal gas law applies, what factor would the air in the lungs expand? c) Confirm your solution with a diagram (graph, multiparticle, or force, etc.)
A scuba diver is 45 m below the surface of a lake, where the
temperature is 5°C. He releases an air bubble with a volume of 10
cm3. The bubble rises to the surface, where the
temperature is 25°C. Assume that the air in the bubble is always in
thermal equilibrium with the surrounding water, and assume that
there is no exchange of molecules between the bubble and the
surrounding water. What is the volume of the bubble right before...
A scuba diver is 35 m below the surface of a lake, where the temperature is 5°C. He releases an air bubble with a volume of 16 cm3. The bubble rises to the surface, where the temperature is 25°C. Assume that the air in the bubble is always in thermal equilibrium with the surrounding water, and assume that there is no exchange of molecules between the bubble and the surrounding water. What is the volume of the bubble right before...
Part A If a scuba diver fills his lungs to full capacity of 5.3 L when 9.0 m below the surface, to what volume would his lungs expand if he quickly rose to the surface? Assume he dives in the sea, thus the water is salt. Express your answer using two significant figures Submit Request Answer Part B Is this advisable? O yes O no Submit Request Answer
Please answer all the blanks (volume if H2 and
everything in analysis). TIA!
Data 5 1 oong 0.00 10.5ml 2 o.olag 0.00 11.0 Trial 3 o.org 0.00 12.00 o Daag o.albg 0.00 10.0 ml 11.5ml Mass of Mg (g) Initial volume of Syringe (mL) Final volume of Syringe (mL) Volume of H (mL) Barometric pressure (torr) Ambient temperature (°C) Vapor pressure of H2O (torr) 779.314har 23. Oi 21.0 forr TA.314tar 23.0c 179.3 14ton 23.0¢ 779.314 ton 23.0c 779.31472 23.0c 21.0...
summatize the following info and break them into differeng key points. write them in yojr own words
apartus
6.1 Introduction—The design of a successful hot box appa- ratus is influenced by many factors. Before beginning the design of an apparatus meeting this standard, the designer shall review the discussion on the limitations and accuracy, Section 13, discussions of the energy flows in a hot box, Annex A2, the metering box wall loss flow, Annex A3, and flanking loss, Annex...