The average energy E (in kcal) needed for a lizard to walk or run a distance of 1 km has been modeled by the equation E(m, v) = 2.65m0.66 + 3.5m0.75 V where m is the body mass of the lizard (in grams) and v is its speed (in km/h). Calculate Em(380, 8) and E,(380, 8) and interpret your answers.t Em(380, 8) = kcal/g (rounded to one decimal place), so the rate at which the energy a lizard needs is changing as its weight increases is km/h. m= g and v= E,(380, 8) = kcal/(km/h) (rounded to one decimal place), so the rate at which the energy a lizard needs is changing as its speed increase is km/hr increase in speed, when m = g and v= km/h.

Transcribed Image Text:

The average energy E (in kcal) needed for a lizard to walk or run a distance of 1 km has been modeled by the equation E(m, v) = 2.65m0.66 3.5m0.75 + where m is the body mass of the lizard (in grams) and v is its speed (in km/h). Calculate Em(380, 8) and E(380, 8) and interpret your answers.t Em (380, 8) = kcal/g (rounded to one decimal place), so the rate at which the energy a lizard needs is changing as its weight increases is km/h. m= g and v= Ev (380, 8) = kcal/(km/h) (rounded to one decimal place), so the rate at which the energy a lizard needs is changing as its speed increase is km/hr increase in speed, when m = g and v= km/h. kilocalories per gram when kcal of energy for each 1