When you ride a bicycle at constant speed, nearly all the energy you expend goes into the work you do against the drag force of the air. Model a cyclist as having cross-section area 0.42 m2 and, because the human body is not aerodynamically shaped, a drag coefficient of 0.90.a.) What is the cyclist's power output while riding at a steady 7.3 m/s (16 mph)? Use 1.3 kg/m3 as a value for the density of air.P=b.) Metabolic power is the rate at which your body "burns" fuel to power your activities. For many activities, your body is roughly 25% efficient at converting the chemical energy of food into mechanical energy. What is the cyclist's metabolic power while cycling at 7.3 m/s?PM=c.) The food calorie is equivalent to 4190 J. How many calories does the cyclist burn if he rides over level ground at 7.3 m/s for 2.0 h?c=

Given:Cross section area A = 0.42 m2Drag coefficient Cd = 0/90First of all let us understand the basic concept.Drag Force:A drag force is a resistance force caused by the motion of body througha fluid, such as water or air.A drag force acts opposite to the direction of oncoming flow velocity. This is the relative velocity behaves body & the fluidThe drag force exited on a body travelling through the fluid is given byD = 12 C ℓ AV2WhereC = coefficient of dragℓ = density of fluidA = Area of cross sectionV = speed velocity of bodyPart (a)Since speed of cyclistV = 7.3 m/sℓ = 1.3 kg/m3So, we know that the expression for lower P = F.Vor P = DVPower = 12 x 0.90 x 0.42 x 1.3 x 7.32 x 7.3 waltPower of cyclist P = 95.58 waltAns The cyclist power output while riding the cycle is P = 95.58 waltPart (b)Since our body is 25% efficient in converting the chemical energyof food into mechanical energy.Then Metabolic power = output power x 15%⇒ Metabolic power = 0.25 x P = 0.25 x 95.58 walt⇒ Metabolic power = 23.89 waltPart (c)Food caloric = 4190 JoulSince Metabolic power is the rate at which our body convert the chemicalenergy of the food (that is bulk food) to mechanical energy.Clearly, for the time duration of t = 2.0 hours = 60 x 2 x 60 sect = 7200 secTotal output power of 7200 secLan total energy requireE = P x t = 95.58 x 7200 JoulE = 688176.00 Joul⇒ Total calories is calculated as 1 food calorie = 4190 Joul⇒ So number of food caloria = 6881764190 caloria⇒ Number of food caloria = 164.24 caloria

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When you ride a bicycle at constant speed, nearly all the energy you expend goes into the work you do against the drag force of the air. Model a cyclist as having cross-section area 0.42 m2 and, because the human body is not aerodynamically shaped, a drag coefficient of 0.90. a.) What is the cyclist's power output while riding at a steady 7.3 m/s (16 mph)? Use 1.3 kg/m3 as a value for

When you ride a bicycle at constant speed, nearly all the energy you expend goes into the work you do against the drag force of the air. Model a cyclist as having cross-section area 0.42 m2 and, because the human body is not aerodynamically shaped, a drag coefficient of 0.90. a.) What is the cyclist's power output while riding at a steady 7.3 m/s (16 mph)? Use 1.3 kg/m3 as a value for

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Question

When you ride a bicycle at constant speed, nearly all the energy you expend goes into the work you do against the drag force of the air. Model a cyclist as having cross-section area 0.42 m² and, because the human body is not aerodynamically shaped, a drag coefficient of 0.90.

a.) What is the cyclist's power output while riding at a steady 7.3 m/s (16 mph)? Use 1.3 kg/m³ as a value for the density of air.

b.) Metabolic power is the rate at which your body "burns" fuel to power your activities. For many activities, your body is roughly 25% efficient at converting the chemical energy of food into mechanical energy. What is the cyclist's metabolic power while cycling at 7.3 m/s?

P_M=

c.) The food calorie is equivalent to 4190 J. How many calories does the cyclist burn if he rides over level ground at 7.3 m/s for 2.0 h?

Chemical pathways by which living things function, especially those that provide cellular energy, such as the transformation of energy from food into the energy of ATP. Metabolism also focuses on chemical pathways involving the synthesis of new biomolecules and the elimination of waste.

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