When human skin is wounded because of a puncture or scrape, disk-shaped keratinocyte cells migrate to the wound to form a first barrier against infection of the wound. Keratinocyte cells, typically 10.0 um in diameter, have been shown to reach the wound site by rolling along the topmost layer of exposed skin at an angular speed of 2.50% rad/h. (a) If keratinocyte cells migrate from both ends of a 4.74 mm-long scrape, how long (in hours) would it take the cells to form a complete barrier? hours (b) What is the translational kinetic energy (in J) of a single keratinocyte cell with a mass of 2.00 x 10-9 g as it rolls toward a wound site? (c) What is the rotational kinetic energy (in J) of a single keratinocyte cell with mass of 2.00 x 10-9 g as it rolls toward a wound site?

Please as soon as possible

Transcribed Image Text:

3. DETAILS (b) What is the translational kinetic energy (in J) of a single keratinocyte cell with a mass of 2.00 x 10-⁹ g as it rolls toward a wound site? When human skin is wounded because of a puncture or scrape, disk-shaped keratinocyte cells migrate to the wound to form a first barrier against infection of the wound. Keratinocyte cells, typically 10.0 µm in diameter, have been shown to reach the wound site by rolling along the topmost layer of exposed skin at an angular speed of 2.50π rad/h. (a) If keratinocyte cells migrate from both ends of a 4.74 mm-long scrape, how long (in hours) would it take the cells to form a complete barrier? hours J (c) What is the rotational kinetic energy (in J) of a single keratinocyte cell with a mass of 2.00 × 10-⁹ g as it rolls toward a wound site? MY NOTES J ASK YOUR TEACHER