You are a sport scientist in charge of preparing your athletes for…

Question Answered step-by-step You are a sport scientist in charge of preparing your athletes for… You are a sport scientist in charge of preparing your athletes for peak performance in the road cycling event at the the 2020 Tokyo Olympic Games, where temperatures are expected to reach 35°C and with up to 80% relative humidity.As part of your preparations for the Olympic Games, you decide to test the influence of a short-term heat acclimatisation strategy you have developed on your athletes’ physiological response to, and performance during, exercise in the heat.athletes performed a 40-km self-paced time trial on three occasions in:Normal conditions (21°C, 30% humidity)Hot conditions (32°C, 75% humidity) BEFORE heat acclimatisationHot conditions (32°C, 75% humidity) AFTER heat acclimatisationThe graphs below display physiological and exercise performance data obtained during the 40-km time trial performed in normal conditions, and in hot conditions before and after heat acclimatisation:Image transcription text340 320 300 280 Power output (W) 260 240 220 200 10 20 30 40 50 60 70 80 90 100 % of 40-km time-trialcompleted Normal conditions Heat condition A Heat condition B 41 40.5 39.5 Core body temperature ( C) 3938.5 38 37.5 37 10 20 30 40 50 60 70 80 90 100 % of 40-km time-trial completed Normal conditi… Show more… Show moreBased on the observed core body temperature and heart rate responses during exercise, identify which time trial (heat condition A or B) was likely performed before, and which was performed after, heat acclimatisation.Based on the observed power output values during the time trial, did the heat acclimatisation strategy likely improve time trial performance (i.e., the time needed to complete a pre-specified distance) in the heat? In your explanation, make reference to the relationship between power output, work, and time.Describe the physiological adaptations to heat acclimatisation that would have resulted in the altered core body temperature and heart rate responses observed during the heat condition identified in part 3. (compared to the responses seen in the other heat condition. Biology Science Physiology HSE 201 Share QuestionEmailCopy link Comments (0)