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College Physics 2.50 – Motion of a Jumping Kangaroo


A kangaroo can jump over an object 2.50 m high. (a) Calculate its vertical speed when it leaves the ground. (b) How long is it in the air?


Part A

The motion of the kangaroo is under free-fall. We are looking for the initial velocity, and we know that the velocity in the highest position is zero.

From

\begin{aligned}
\text{v}^2 &=\left (\text{v}_0 \right )^2+2\text{ay},\\
\end{aligned}

we have

\begin{aligned}
\text{v}^2 &=\left (\text{v}_0 \right )^2+2\text{ay}\\
\text{v}^2-2\text{ay} &= \left ( \text{v}_0\right)^2\\
\text{v}_0&=\sqrt{\text{v}^2-2\text{ay}}
\end{aligned}

Substituting the known values,

\begin{aligned}
\text{v}_0&=\sqrt{\text{v}^2-2\text{ay}} \\
\text{v}_0&=\sqrt{0^2-2\left(-9.81 \text{m/s}^2\right)\left(2.50 \text{m}\right)}\\
\text{v}_0&= {\color{green}7.00 \  \text{m/s}}
\end{aligned}

Therefore, the vertical speed of the kangaroo when it leaves the ground is 7.00 m/s.

Part B

Since the motion of the kangaroo has uniform acceleration, we can use the formula

\text{y}=\text{v}_o\text{t}+\frac{1}{2}\text{a}\text{t}^2

The initial and final position of the kangaroo will be the same, so y is equal to zero. The initial velocity is 7.00 m/s, and the acceleration is -9.81 m/s2.

\begin{aligned}
\text{y} & =\text{v}_0\text{t}+\frac{1}{2}\text{a}\text{t}^2\\
0 & = \left( 7.00\ \text{m/s} \right)\text{t}+\frac{1}{2}\left( -9.81\ \text{m/s}^{2} \right)\text{t}^2\\
0 & =7\text{t}-4.905\text{t}^{2}\\
7\text{t}-4.905\text{t}^{2}&=0 \\
\text{t}\left( 7-4.905\text{t} \right) & =0 \\
\text{t}=0 \qquad &\text{or} \qquad 7-4.905\text{t}=0 \\

\end{aligned}

Discard the time 0 since this refers to the beginning of motion. Therefore, we have

\begin{aligned}
7-4.905\text{t} &=0 \\
4.905\text{t} & = 7 \\
\text{t} & =\frac{7}{4.905} \\
 \text{t}&={\color{green}1.43 \  \text{s}} 
\end{aligned}

The kangaroo is about 1.43 seconds long in the air.

Solution Guides to College Physics by Openstax Chapter 13 Banner

Chapter 13: Temperature, Kinetic Theory, and the Gas Laws

Temperature

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Thermal Expansion of Solids and Liquids

Problem 9

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The Ideal Gas Law

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Kinetic Theory: Atomic and Molecular Explanation of Pressure and Temperature

Problem 39

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Humidity, Evaporation, and Boiling

Problem 49

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Solution Guides to College Physics by Openstax Chapter 12 Banner

Chapter 12: Fluid Dynamics and Its Biological and Medical Applications

Flow Rate and Its Relation to Velocity

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Bernoulli’s Equation

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The Most General Applications of Bernoulli’s Equation

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Viscosity and Laminar Flow; Poiseuille’s Law

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Problem 32

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The Onset of Turbulence

Problem 51

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Problem 53

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Molecular Transport Phenomena: Diffusion, Osmosis, and Related Processes

Problem 62

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Solution Guides to College Physics by Openstax Chapter 11 Banner

Chapter 11: Fluid Statics

Density

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Pressure

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Variation of Pressure with Depth in a Fluid

Problem 14

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Pascal’s Principle

Problem 24

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Gauge Pressure, Absolute Pressure, and Pressure Measurement

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Archimedes’ Principle

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Cohesion and Adhesion in Liquids: Surface Tension and Capillary Action

Problem 54

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Pressures in the Body

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Solution Guides to College Physics by Openstax Chapter 10 Banner

Chapter 10: Rotational Motion and Angular Momentum

Angular Acceleration

Problem 1

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Kinematics of Rotational Motion

Problem 5

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Dynamics of Rotational Motion: Rotational Inertia

Problem 10

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Problem 15

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Rotational Kinetic Energy: Work and Energy Revisited

Problem 21

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Problem 28

Problem 29

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Problem 32

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Angular Momentum and Its Conservation

Problem 36

Problem 37

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Problem 42

Collisions of Extended Bodies in Two Dimensions

Problem 43

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Problem 45

Problem 46

Problem 47

Gyroscopic Effects: Vector Aspects of Angular Momentum

Problem 48


Solution Guides to College Physics by Openstax Chapter 9 Banner

Chapter 9: Statics and Torque

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The Second Condition for Equilibrium

Problem 1

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Stability

Problem 6

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Applications of Statics, Including Problem-Solving Strategies

Problem 17

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Simple Machines

Problem 19

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Forces and Torques in Muscles and Joints

Problem 26

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Problem 28

Problem 29

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Solution Guides to College Physics by Openstax Chapter 8 Banner

Chapter 8: Linear Momentum and Collisions

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Linear Momentum and Force

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Impulse

Problem 7

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Conservation of Momentum

Problem 23

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Elastic Collisions in One Dimension

Problem 28

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Inelastic Collisions in One Dimension

Problem 31

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Collisions of Point Masses in Two Dimensions

Problem 45

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Introduction to Rocket Propulsion

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Solution Guides to College Physics by Openstax Chapter 7 Banner

Chapter 7: Work, Energy, and Energy Resources


Work: The Scientific Definition

Kinetic Energy and the Work-Energy Theorem

Problem 11

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Gravitational Potential Energy

Problem 16

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Conservative Forces and Potential Energy

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Nonconservative Forces

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Conservation of Energy

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Power

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Work, Energy, and Power in Humans

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World Energy Use

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Solution Guides to College Physics by Openstax Chapter 6 Banner

Chapter 6: Uniform Circular Motion and Gravitation

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Rotation Angle and Angular Velocity

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Centripetal Acceleration

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Centripetal Force

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Newton’s Universal Law of Gravitation

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Satellites and Kepler’s Laws: An Argument for Simplicity

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Solution Guides to College Physics by Openstax Chapter 5 Banner

Chapter 5: Further Applications of Newton’s Laws: Friction, Drag, and Elasticity

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Friction

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Drag Forces

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Elasticity: Stress and Strain

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