. Each gram of mammalian skeletal muscle consumes ATP at a rate of about 1x 10-3 mol/min during contraction. Concentrations of ATP and creatine phosphate in muscle are about 4 mM and 25 mM, respectively, and the density of muscle tissue can be taken to be about 1.2 g/cm'. (a) How long could contraction continue using ATP alone? (b) If all creatine phosphate were converted into ATP and utilized as well, how long could contraction continue? (c) What do these answers tell you?
. Each gram of mammalian skeletal muscle consumes ATP at a rate of about 1x 10-3 mol/min during contraction. Concentrations of ATP and creatine phosphate in muscle are about 4 mM and 25 mM, respectively, and the density of muscle tissue can be taken to be about 1.2 g/cm'. (a) How long could contraction continue using ATP alone? (b) If all creatine phosphate were converted into ATP and utilized as well, how long could contraction continue? (c) What do these answers tell you?
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Chapter1: Chemical Foundations
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![. Each gram of mammalian skeletal muscle consumes ATP at a rate of
about 1x 10-3 mol/min during contraction. Concentrations of
ATP and creatine phosphate in muscle are about 4 mM and 25 mM,
respectively, and the density of muscle tissue can be taken to be
about 1.2 g/cm'.
(a) How long could contraction continue using ATP alone?
(b) If all creatine phosphate were converted into ATP and utilized as
well, how long could contraction continue?
(c) What do these answers tell you?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0b0d3f27-b6f0-4abe-b29d-c145fe1f77a0%2F69f9c4dd-0d59-4e0b-808d-a1c9da53466d%2Fz2uhkv_processed.png&w=3840&q=75)
Transcribed Image Text:. Each gram of mammalian skeletal muscle consumes ATP at a rate of
about 1x 10-3 mol/min during contraction. Concentrations of
ATP and creatine phosphate in muscle are about 4 mM and 25 mM,
respectively, and the density of muscle tissue can be taken to be
about 1.2 g/cm'.
(a) How long could contraction continue using ATP alone?
(b) If all creatine phosphate were converted into ATP and utilized as
well, how long could contraction continue?
(c) What do these answers tell you?
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