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a scuba diver exhales 4.95 L of air while swimming at a depth of 51.90 m where the sum of atmospheric pressure and water pressure is 6.02 atm. By the time this exhaled air rises to the surface, where the pressure is 1.00 atm, what is its volume
Homework Answers
ref:: https://www.homeworklib.com/question/1568740/a-scuba-diver-exhales-332-l-of-air-while-swimming
mere entry question is worth point / You have 6 of 6 attempts remaining/ There is...
mere entry question is worth point / You have 6 of 6 attempts remaining/ There is a 5x attempt penalty 14 Question (1 point) See page 275 1st attempt See Periodic Table See Hint A scuba diver exhales 1.95 L of air while swimming at a depth of 59.70 m where the sum of atmospheric pressure and water pressure is 6.77 atm. By the time this exhaled air rises to the surface, where the pressure is 1.00 atm, what is...
A scuba diver exhales 3.32 L of air while swimming at a depth of 20.0 m...
A scuba diver exhales 3.32 L of air while swimming at a depth of 20.0 m where the sum of atmospheric and water pressure is 2.95 atm. By the time the bubbles of air rise to the surface, where the pressure is 1.00 atm, what is their total volume? Assume the temperature of the water body is uniform.
A scuba diver creates a spherical bubble with a radius of 2.0 cm at a depth...
A scuba diver creates a spherical bubble with a radius of 2.0 cm at a depth of 30.0 m where the total pressure (including atmospheric pressure) is 4.00 atm. What is the radius of the bubble when it reaches the surface of the water? (Assume atmospheric pressure to be 1.00 atm and the temperature to be 298 K.)
Part A If the diver were to ascend to the surface (where the pressure is 1.0...
Part A If the diver were to ascend to the surface (where the pressure is 1.0 atm) while holding her breath, to what volume would the air in her lungs expand? (Assume constant temperature.) Express your answer using two significant figures. VAED V2 L Submit Request Answer Exercise 11.36 3 of 15 Review I Constants I Periodic Table A scuba diver with a lung capacity of 5.5 L inhales a lungful of air at a depth of 43 m and...
I don't understand this question at all or what is required to answer it, please explain....
I
don't understand this question at all or what is required to answer
it, please explain.
Question 49 Passage 9 (Questions 49 - 52) Scuba divers must carry specialty equipment that allows them to breathe underwater However, often overlooked is the equipment that allows them to navigate comfortably. A scuba diver in cool waters must wear an insulated wet or dry suit, which is usually composed of neoprene and contains about 40% air by volume. The diver also wears a...
A scuba diver ascends too quickly and develops the bends. A nitrogen bubble has formed in...
A scuba diver ascends too quickly and develops the bends. A nitrogen bubble has formed in the patient's elbow. At a depth of 58 ft, where the pressure is 2.76 atm, the bubble had a volume of 0.023 mL. Assuming a constant temperature and number of moles of nitrogen in the bubble, what volume did the bubble increase to at the surface, where the pressure is 1.00 atm? bubble volume at surface: The scuba diver is placed into a hyperbaric...
A diver on Earth (where the atmospheric pressure is 1.00 atm and the acceleration due to...
A diver on Earth (where the atmospheric pressure is 1.00 atm and the acceleration due to gravity is 9.80 ms-2) descends in salty sea water with a density of 1025 kgm-3. The diver is holding a balloon close to him and the volume of the balloon is V at the surface of water is 3.55 × 10-3 m3. a) What pressure does the diver experience at a depth of 18.5 m? b) What is the volume of the balloon at...
Question 4 of 11 > A scuba diver ascends too quickly and develops the bends. A nitrogen bubble has formed in the...
Question 4 of 11 > A scuba diver ascends too quickly and develops the bends. A nitrogen bubble has formed in the patient's elbow. At a depth of 53 ft, where the pressure is 2.60 atm, the bubble had a volume of 0.022 mL. Assuming a constant temperature and number of moles of nitrogen in the bubble, what volume did the bubble increase to at the surface, where the pressure is 1.00 atm? bubble volume at surface: ml The scuba...
Exercise 5.85 Part A A scuba diver creates a spherical bubble with a radius of 2.5...
Exercise 5.85 Part A A scuba diver creates a spherical bubble with a radius of 2.5 cm at a depth of 30.0 m where the total pressure (including atmospheric pressure) is 4.00 atm What is the radius of the bubble when it reaches the surface of the water? (Assume atmospheric pressure to be 1.00 atm and the temperature to be 298 K.) Express your answer using two significant figures. r= cm Submit My Answers Give Up Provide Feedback Continue
A scuba diver is 45 m below the surface of a lake, where the temperature is...
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...
mere entry question is worth point / You have 6 of 6 attempts remaining/ There is a 5x attempt penalty 14 Question (1 point) See page 275 1st attempt See Periodic Table See Hint A scuba diver exhales 1.95 L of air while swimming at a depth of 59.70 m where the sum of atmospheric pressure and water pressure is 6.77 atm. By the time this exhaled air rises to the surface, where the pressure is 1.00 atm, what is...
Part A If the diver were to ascend to the surface (where the pressure is 1.0 atm) while holding her breath, to what volume would the air in her lungs expand? (Assume constant temperature.) Express your answer using two significant figures. VAED V2 L Submit Request Answer Exercise 11.36 3 of 15 Review I Constants I Periodic Table A scuba diver with a lung capacity of 5.5 L inhales a lungful of air at a depth of 43 m and...
I
don't understand this question at all or what is required to answer
it, please explain.
Question 49 Passage 9 (Questions 49 - 52) Scuba divers must carry specialty equipment that allows them to breathe underwater However, often overlooked is the equipment that allows them to navigate comfortably. A scuba diver in cool waters must wear an insulated wet or dry suit, which is usually composed of neoprene and contains about 40% air by volume. The diver also wears a...
A scuba diver ascends too quickly and develops the bends. A nitrogen bubble has formed in the patient's elbow. At a depth of 58 ft, where the pressure is 2.76 atm, the bubble had a volume of 0.023 mL. Assuming a constant temperature and number of moles of nitrogen in the bubble, what volume did the bubble increase to at the surface, where the pressure is 1.00 atm? bubble volume at surface: The scuba diver is placed into a hyperbaric...
Question 4 of 11 > A scuba diver ascends too quickly and develops the bends. A nitrogen bubble has formed in the patient's elbow. At a depth of 53 ft, where the pressure is 2.60 atm, the bubble had a volume of 0.022 mL. Assuming a constant temperature and number of moles of nitrogen in the bubble, what volume did the bubble increase to at the surface, where the pressure is 1.00 atm? bubble volume at surface: ml The scuba...
Exercise 5.85 Part A A scuba diver creates a spherical bubble with a radius of 2.5 cm at a depth of 30.0 m where the total pressure (including atmospheric pressure) is 4.00 atm What is the radius of the bubble when it reaches the surface of the water? (Assume atmospheric pressure to be 1.00 atm and the temperature to be 298 K.) Express your answer using two significant figures. r= cm Submit My Answers Give Up Provide Feedback Continue
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...
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