Two small frogs simultaneously leap straight up from a lily pad. Frog A leaps with an initial velocity of 0.526 m/s, while frog B leaps with an initial velocity of 1.75 m/s. When frog A lands back on the lily pad, what is the position and velocity of frog B? Take upwards to be positive, and let the position of the lily pad be zero.
position:
velocity:
Two small frogs simultaneously leap straight up from a lily pad. Frog A leaps with an...
A frog spots a Lily pad in the water 2.50 m from the shore. He jumps off a tree branch 44 em above the shore at an angle of 35° above the horizontal with an initial velocity of 2.4 m/s. If the Lily pad is.12 em in diameter does he make his target or does he land in the water? No points for guessing. You must show your work 4.
Runner Rendezvous. Two runners start simultaneously at opposite ends of a straight 200 m track and run towards each other. Runner A runs at a steady 9.00 m/s, while Runner B runs at a constant 5.00 m/s. a) Draw a diagram of this situation. Include a coordinate system in your diagram, and label the initial positions and velocities of both runners. Also estimate where the runners would meet and label it as x. b) Write equations for the position of...
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2) Runner Rendezvous. Two runners start simultaneously at opposite ends of a straight 200 m track and run towards each other. Runner A runs at a steady 9.00 m/s, while Runner B runs at a constant 5.00 m/s. a) Draw a diagram of this situation. Include a coordinate system in your diagram, and label the initial positions and velocities of both runners. Also estimate where the runners would meet and label it as x. b) Write equations...
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2) Runner Rendezvous. Two runners start simultaneously at opposite ends of a straight 200 m track and run towards each other. Runner A runs at a steady 9.00 m/s, while Runner B runs at a constant 5.00 m/s. a) Draw a diagram of this situation. Include a coordinate system in your diagram, and label the initial positions and velocities of both runners. Also estimate where the runners would meet and label it as x. Write equations for...
Two objects are dropped simultaneously from an initial height of 100m, with an initial velocity of zero. They fall straight down. For mass 1, you can ignore air drag. For mass 2, air drag DOES affect the motion. Here is the position vs. time for both objects: 100 90 80 y 100-0.1164't-4.795*t40.1283*t3 70 60 mass 1: no air drag a mass 2: with air drag 40 30 y-100-1/2 9.8*t2.. 20 10 time (s) 1) Calculate the kinetic energy of mass...
Problem 9: A ball is thrown straight up at time t = 0 with an initial speed of 15 m/s. Take the point of release to be y0 = 0 and upwards to be the positive direction. No Attempt No Attempt 13% Part (a) Calculate the displacement at the time of 0.50 s. No Attempt No Attempt 13% Part (b) Calculate the velocity at the time of 0.50 s. No Attempt No Attempt 13% Part (c) Calculate the displacement at...
QUIZ: Free fall and air drag Due Menday-Tuesday no exceptions Two objects are dropped simultaneously from an initial height of 100m, with an initial velocity of zero. They fall straight down. For mass 1, you can ignore air drag. For mass 2, air drag DOES affect the motion. Here is the position vs. time for both objects: 100 90 80 %, y-100-0.1164*t-4.795%40.1283*t3 70 60 mass 1: no air drag n mass 2: with air drag 50 40 30 y 100-1/2...
17. A projectile of mass m is fired straight up from an initial height ho with an initial speod vo. The projectile rises to a maximum height of hesa and falls straight back down to the ground at zero height. What is the total work done by the force of gravity during this trajectory? Vo ho m. If a hole appears in 18. The water level in a city storagetower is at a height of 40 the tower at a...
need help with ANALYZE PART A AND B and FINALIZE
EXPLORE A car is moving with constant acceleration along a straight road (A) Determine how the velocity and the displacement of the car vary with time if the car is initialy moving to the right with a speed of 9.0 m/s and has an acceleration to the right of 1.7 m/s (B) Determine the velocity as a function of time when the velocity is instead initially to the right and...
cally up from a moving cart. The position of the balls to raph below shows the position of the ball at equal time inter- A ball is fired vertically up from a mo the left of the graph below showst vals, as would be seen by the person on the cart. a. For this person the motion is sym- metric in time so positions on the way down are the same as on the way up, so only one ball...