The center of mass G of a high jumper follows the trajectory shown. Determine the component vo, measured in the vertical plane of the figure, of his takeoff velocity and angle 8 if the apex of the trajectory just clears the bar at A. (In general, must the mass center G of the jumper clear the bar during a successful jump?) Assume a = 3.3 ft, b = 3.5 ft, c = 3.5 ft. Answers: Vo = ft/sec

The center of mass G of a high jumper follows the trajectory shown. Determine the component vo, measured in the vertical plane of the figure, of his takeoff velocity and angle 8 if the apex of the trajectory just clears the bar at A. (In general, must the mass center G of the jumper clear the bar during a successful jump?) Assume a = 3.3 ft, b = 3.5 ft, c = 3.5 ft. Answers: Vo = ft/sec

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter9: Linear Momentum And Collisions

Section: Chapter Questions

Problem 73P: Find the center of mass of a cone of uniform density that has a radius R at the base, height h, and...

See similar textbooks

Related questions

Q: In the very Dutch sport of Fierljeppen, athletes run up to a long pole and then use it to vault…

A: Let m denote the mass of the vaulter, r denote the distance of the vaulter from the bottom of the…

Q: What is the speed

Q: Consider a rigid aircraft observed by optical sensors giving the inertial velocities of the mass…

A: V→Icm=100i^-10j^+10k^ ft/sVI→rwt =74i^-21j^+68k^ ft/sV→rwt/cm=-2i^+10j^+1k^ ft/swe know from…

Q: Problem 3. The three particles in figure below are initially at rest. Their masses are ma = 2.0 kg…

A: Write the given forces in the vector form as follows. FA→=-FAcosθi^+FAsinθj^=-6.0 Ncos25°i^+6.0…

Q: r = 2.0m 600 5 kg 10 kg A

A: Given data The weight of sphere A is WA = 5 kg The length of the cord is r = 2 m The angle of…

Q: The football player in the picture kicks the 1.5-lb ball with a velocity vA of 50 mph, as shown. The…

A: Dear students, I have given my 100% on this question. If you see any kind of problem or mistake then…

Q: A shot-putter throws an iron ball (7.26 kg) forward (due East). The initial velocity of the ball is…

Q: A footballer A, combines a ball with a weight of 5Kg to his fellow footballer B with a speed of 20m…

Q: A 3.5 kg rifle fires an 11 g bullet with a velocity of 575 m/s. (a) What is the recoil velocity of…

Q: Renz, a professional rooftop futbol player, kicked a 0.450 [kg] ball off a rooftop that is 81.0 [m]…

Q: subjected to the force F = 24.3(t + 1) Ib where t is in seconds. If the cabinet is

A: Given Force= 24.3(t+1) Velocity = 19 ft/s mass=190.3 lb

Q: on a frictionless surface. They collide As shown in the figure below, two objects are moving towar…

A: Given - Velocity of object 1 =v1→Velocity of object 2 =v2→ = 9.4msMass of object 1 (m1) = 1.4…

Q: A baseball with mass of 0.16 kg is batted into the air. Its initial speed is 37.7 m/s, directed at…

A: Resolve the velocity vector V into horizontal and vertical components. Vx=Vcos(30°)=37.7…

Q: d d x = 0 Shown in the figure are three point masses and their positions with d = 5 [meters]. The…

A: The centre of mass of a three particle system can be given by, xcm=m1x1+m2x2+m3x3m1+m2+m3 where x1…

Q: The center of mass G of a high jumper follows the trajectory shown. Determine the component vo,…

Q: Spectators watch a bicycle stunt rider travel off the end of a 57.5° ramp, rise to the top of her…

A: Given data: The inclination of the ramp is θ=57.5o. The time taken by the rider to reach the ground…

Q: Ima Peode wishes to throw a 2.8-kg pumpkin horizontally off the top of the school roof in order to…

Q: A bowler throws a bowling ball of radius R = 11 cm along a lane. The ball slides on the land with an…

A: Given: The radius of the bowling ball is 11 cm. The initial speed of the ball is 8.5 m/s. The…

Q: a bridge across a small stream is made by supporting a 10m long log with a mass of 75kg with ropes…

A: Let the mass of the log is M and the mass of the child is m. For y direction the torque equation is…

Q: A 16 inch thin-crust cheese pizza is cut equally into eight slices. Assuming a uniform distribution…

A: Concept: The Formula to determine the Radial distance of the center of mass of the pizza center will…

Q: The measure of the linear density at a point of a rod varies directly as the third power of the…

Q: There are no numerical values assigned to the variables in this problem. A block of mass m1 is…

Q: Find the speed of the basketball of diameter 10 cm, when the quadratic and the linear drag forces…

A: when a baseball flies through the air, the ratio of quadratic and linear drag force is given by…

Q: A particle of mass 'm' moves in horizontal plane along the curve s = a0 as shown in figure, where is…

A: Mass of the particle =m Equation of the curve, s=αθ

Q: In the very Dutch sport of Fierljeppen, athletes run up to a long pole and then use it to vault…

A: Given that -- In the very Dutch sport of Fierljeppen, athletes run up to a long pole and then use it…

Q: Determine the coordinates of the center of mass of the three-particle system below. The masses are…

A: Given: The coordinates of the center of mass of the three-particle system. here, according to…

Q: *15-20. The 200-lb cabinet is subjected to the force F=20(1+1) lb where t is in seconds. If the…

A: Given Mass = 200 lb Force = 20 (t+1) lb Initial velocity = 20 ft/s Time…

Q: A 10 kg mass sits at (2 m, 0), a 15 kg mass sits at (0, -6 m) and a 25 kg mass is at (-2 m, 4 m).…

A: Given

Concept explainers

Rigid Body

A rigid body is an object which does not change its shape or undergo any significant deformation due to an external force or movement. Mathematically speaking, the distance between any two points inside the body doesn't change in any situation.

Rigid Body Dynamics

Rigid bodies are defined as inelastic shapes with negligible deformation, giving them an unchanging center of mass. It is also generally assumed that the mass of a rigid body is uniformly distributed. This property of rigid bodies comes in handy when we deal with concepts like momentum, angular momentum, force and torque. The study of these properties – viz., force, torque, momentum, and angular momentum – of a rigid body, is collectively known as rigid body dynamics (RBD).

Question

The center of mass G of a high jumper follows the trajectory shown. Determine the component vo, measured in the vertical plane of the
figure, of his takeoff velocity and angle 8 if the apex of the trajectory just clears the bar at A. (In general, must the mass center G of the
jumper clear the bar during a successful jump?)
Assume a = 3.3 ft, b = 3.5 ft, c = 3.5 ft.
Answers:
Vo =
0=
i
IM
ft/sec

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step 5

Step by step

Solved in 5 steps with 5 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Similar questions

The football player in the picture kicks the 1.5-lb ball with a velocity vA of 50 mph, as shown. The ball bounces off the turf, having a coefficient of restitution with the ball of 0.35, before landing a second time in mud, getting stuck there. Based on this: a) What will the rebound velocity, v’B, and angle be? b) How much less high will the ball bounce than it reached during the initial kick? c) What total distance will the ball travel?
Do the round off on final answer only. Answer carefully.
There are no numerical values assigned to the variables in this problem. A block of mass m1 is projected with a velocity vi at the top of the wedge. When the block reaches the horizontal surface its velocity vf to the right while the wedge moves with a velocity v2 of to the left. (a). What is the velocity of the once it reaches the horizontal surface? Your answer must be in terms of relevant variables. (b). What is the height h the wedge in terms of the relevant variables?
V and V2 on a frictionless surface. They collide As shown in the figure below, two objects are moving towar ds each cther with velocities given by the vectors V3. If the masses m1 - 1.4 m2 what is the magnitude of V3 in m/s? perfectly inelastically and then move together as indicated ty the vector Provide your answer with 2 decimal places. e1 = 38.1 degree 62 = 11.6 degree = 9.4 m/s m1 m2 V 02 Va 3
Spectators watch a bicycle stunt rider travel off the end of a 57.5° ramp, rise to the top of her trajectory and, at that instant, suddenly push her bike horizontally away from her so that she falls vertically straight down, reaching the ground 0.525 s later. How far (in m) from the rider does the bicycle land if the rider has a mass mrider = 58.4 kg and the bike has a mass mbike = 14.5 kg? Neglect air resistance and assume the ground is level. ?m
2. The center of mass G of a high jumper follows the trajectory shown. Determine the component vo, measured in the vertical plane of the figure, of his takeoff velocity and angle 8 if the apex of the trajectory just clears the bar at A. GIVEN: FIND: FORMULA SOLUTION: ANSWER: 1 m Vo 1.06 m 1.06 m
Find Part F and G
10) Take a look at the picture below. The mass is fire up along the inclined plane. Sometime later it returns to the initial position with a velocity that is 4 of its initial value. Calculate the coefficient of kinetic friction. Massa own Vup frickion Here. going Vdowin 37.10
e) determine the magnitude of the acceleration of the projectile midway on its trajectory
help pls
nd has a two sur- Week 3 homeuric A 2 00 kg projechle fired at an angee or 20 what is the magnitude O the torce exei tecd onthe pr jectice when iş is at the nignest position Inits trajectory. Neglect any air resistance.
Please answer this with in 30 mins ! I will upvote ! Problem: A shot-putter throws an iron ball (7.26 kg) forward (due East). The initial velocity of the ball is 12.0 m/s, with respect to shot-putter’s hand, in a direction of 25.0° above the horizontal while the shot-putter also moves forward horizontally (due East) with a velocity of 3.50 m/s. At the moment of throwing the ball, his hand is 1.90 m above the ground. How long is the ball in the air after it leaves the shot-putter’s hand?