1.) General Physics Problem Solving
a.) A sperm whale can accelerate at about 0.0900 m/s2 when swimming on the surface of the ocean. How far will a sperm whale travel if it starts at a speed of 0.800 m/s and accelerates to a speed of 2.18 m/s? Assume the whale travels in a straight line.
b.) A fox locates rodents under the snow by the slight sounds they make. The fox then leaps straight into the air and burrows its nose into the snow to catch its meal. If a fox jumps up to a height of 71 cm, calculate the speed at which the fox leaves the snow and the amount of time the fox is in the air. Ignore air resistance.
1.) General Physics Problem Solving a.) A sperm whale can accelerate at about 0.0900 m/s2 when...
A fox locates rodents under the snow by the slight sounds they make. The fox then leaps straight into the air and burrows its nose into the snow to catch its meal. If a fox jumps up to a height of 89 cm, calculate the speed at which the fox leaves the snow and the amount of time the fox is in the air. Ignore air resistance. speed m/s time:
A sperm whale can accelerate at about 0.0800 m/s2 when swimming on the surface of the ocean. How far will a sperm whale travel if it starts at a speed of 0.800 m/s and accelerates to a speed of 2.18 m/s? Assume the whale travels in a straight line. distance traveled:
A fox locates its prey under the snow by slight sounds rodents make. The fox then leaps straight into the air, and then burrows its nose into the snow to catch its meal. if a fox jumps up to a height of 83cm. calculate how long the fox is in the air. Ignore air resistance.
A sperm whale can accelerate at about 0.100 m/s2 when swimming on the surface of the ocean. How far will a sperm whale travel if it starts at a speed of 0.800 m/s and accelerates to a speed of 2.31 m/s ? Assume the whale travels in a straight line.
PLEASE ANSWER ALL 3 QUESTIONS ALL DIFFERENT PROBLEMS!!! 1. In April 1974, Steve Prefontaine completed a 10 km10 km race in a time of 27 min27 min, 43.6 s43.6 s. Suppose "Pre" was at the 8.27 km8.27 km mark at a time of 25.0 min25.0 min. If he accelerated for 60 s60 s and then maintained his increased speed for the remainder of the race, calculate his acceleration over the 60 s60 s interval. Assume his instantaneous speed at the...