Solved Part Aa Swimmer Is Capable Of Swimming 0 44ms ï In Chegg Our expert help has broken down your problem into an easy to learn solution you can count on. a swimmer is capable of swimming 0. 7 0 m s in still water. how long will it take her? express your answer to two significant figures and include the appropriate units. there are 2 steps to solve this one. not the question you’re looking for?. Question: pearson etext study area document sharing a swimmer is capable of swimming 0.70 m s in still part a at what upstream angle must the swimmer airn, if she is to arrive at a point directly across a 65 m wide river whose current is 0.50 m s ? express your answer to two significant figures and include the appropriate units.
Solved A Swimmer Is Capable Of Swimming 0 60ms ï In Still Chegg To reach directly across a river with a current, a swimmer needs to aim at an upstream angle. to calculate the angle, we use the swimmer's speed and river current speed as the sides of a right triangle and apply the tangent formula. this results in an angle of approximately 29.74°. A swimmer is capable of swimming at 0.60 m s in still water. (a) if she aims her body directly across a 45 m wide river whose current is 0.50 m s, how far downstream (from a point opposite to her starting point) will she land?. A swimmer is capable of swimming 0.70 m s in still water. at what upstream angle must the swimmer aim, if she is to arrive at a point directly across a 35 m wide river whose current is 0.40 m s? how long will it take her?. Problem 3.47 ③ 13 of 13 0 constants a swimmer is capable of swimming 0.70 m s in still water. part a at what upstream angle must the swimmer aim, if she is to arrive at a point directly across the stream of a 36 m wide river whose current is 0.50 m s? express your answer to two significant figures and include the appropriate units.
Solved A Swimmer Is Capable Of Swimming 0 65 M S In Still Chegg A swimmer is capable of swimming 0.70 m s in still water. at what upstream angle must the swimmer aim, if she is to arrive at a point directly across a 35 m wide river whose current is 0.40 m s? how long will it take her?. Problem 3.47 ③ 13 of 13 0 constants a swimmer is capable of swimming 0.70 m s in still water. part a at what upstream angle must the swimmer aim, if she is to arrive at a point directly across the stream of a 36 m wide river whose current is 0.50 m s? express your answer to two significant figures and include the appropriate units. A swimmer is capable of swimming 0.60 m s in still water. if she aims her body directly across a 45 m wide river whose current is 0.50 m s, how far downstream (from a point opposite her starting point) will she land?. The swimmer's speed in still water is v s = 0.70 m s and the current's speed is v c = 0.60 m s. the swimmer should aim upstream at an angle, θ , that allows their effective downstream velocity to counteract the river's current, ensuring they swim straight across. First, we need to identify the swimmer's velocity relative to the water and the river's current. the swimmer moves at \(0.45 \, \text{m s}\) in a direction perpendicular to the river current, while the river current itself moves at \(0.40 \, \text{m s}\). Using the given values, the velocity of the swimmer in still water is 0.80 m s, and the velocity of the river's current is 0.60 m s. we can use the equation tanθ = (0.80 0.60) to find the upstream angle.
Solved A Swimmer Is Capable Of Swimming 0 44ms ï In Still Chegg A swimmer is capable of swimming 0.60 m s in still water. if she aims her body directly across a 45 m wide river whose current is 0.50 m s, how far downstream (from a point opposite her starting point) will she land?. The swimmer's speed in still water is v s = 0.70 m s and the current's speed is v c = 0.60 m s. the swimmer should aim upstream at an angle, θ , that allows their effective downstream velocity to counteract the river's current, ensuring they swim straight across. First, we need to identify the swimmer's velocity relative to the water and the river's current. the swimmer moves at \(0.45 \, \text{m s}\) in a direction perpendicular to the river current, while the river current itself moves at \(0.40 \, \text{m s}\). Using the given values, the velocity of the swimmer in still water is 0.80 m s, and the velocity of the river's current is 0.60 m s. we can use the equation tanθ = (0.80 0.60) to find the upstream angle.
Solved Part A A Swimmer Is Capable Of Swimming 0 74 M S In Chegg First, we need to identify the swimmer's velocity relative to the water and the river's current. the swimmer moves at \(0.45 \, \text{m s}\) in a direction perpendicular to the river current, while the river current itself moves at \(0.40 \, \text{m s}\). Using the given values, the velocity of the swimmer in still water is 0.80 m s, and the velocity of the river's current is 0.60 m s. we can use the equation tanθ = (0.80 0.60) to find the upstream angle.
Solved Part Aa Swimmer Is Capable Of Swimming 0 70ms ï In Chegg