-- KINEMATICS --
-- PROJECTILE MOTION --
-- DYNAMICS --
-- CIRCULAR MOTION --
-- WORK & ENERGY --
-- IMPULSE & MOMENTUM --
-- CENTER OF MASS --
-- TORQUE - STATICS --
-- TORQUE - DYNAMICS --
-- TORQUE - ENERGY & MOMENTUM --
-- FLUIDS --
-- OSCILLATIONS --
-- MECHANICAL WAVES --

P01R2021 – Physics Rocks

Physics Rocks

A first rock is thrown from ground level with an upward speed $v_0=20\ m/s$ while a second rock is dropped from rest at a height $H_2=100\ m$ above the ground. You may approximate $g\approx 10\ m/s^2$ for your calculations. Show your work and include units for all numerical answer.

1. Write the kinematic equations $y_1\left(t\right)$ and $v_1\left(t\right)$ for the first rock.

View answer

The first rock undergoes an acceleration $a_y=-g$ and starts from $y_0=0$ with an initial velocity $v_{0y}=v_0$. Its kinematic equations are therefore given by

\boxed{
\left\{ \begin{array}{c}
\displaystyle{y_1\left(t\right)=-\frac{1}{2}gt^2+v_0t} \\
\\
v_1\left(t\right)=-gt+v_0 \ \ \ \ \ \end{array}
\right.
}

2. Write the kinematic equations $y_2\left(t\right)$ and $v_2\left(t\right)$ for the second rock.

View answer

The first rock undergoes an acceleration $a_y=-g$ and starts from $y_0=H_2$ with an initial velocity $v_{0y}=0$. Its kinematic equations are therefore given by

\boxed{
\left\{ \begin{array}{c}
\displaystyle{y_2\left(t\right)=-\frac{1}{2}gt^2+H_2} \\
\\
v_2\left(t\right)=-gt \ \ \ \ \ \ \ \ \ \ \ \ \ \ \end{array}
\right.
}

3. At what time are the rocks at the same height?

View answer

The rocks are at the same height at time $t_f$ such that $y_1\left(t_f\right)=y_2\left(t_f\right)$ and we solve for $t_f$ as follows

\begin{aligned}
y_1\left(t_f\right)=y_2\left(t_f\right)\ \ \ \ &\Rightarrow \ \ \ \ -\frac{1}{2}gt^2_f+v_0t_f=-\frac{1}{2}gt^2_f+H_2 \\
\\
&\Rightarrow \ \ \ \ \ t_f=\frac{H_2}{v_0}
\end{aligned}

The rocks are at the same height at time $t_f$ equal to

\boxed{t_f=\frac{H_2}{v_0}=\frac{100}{20}=5\ s}

4. When the rocks are at the same height, what is the velocity of the first rock? Is it moving upward or downward?

View answer

The velocity of the first rock at time $t_f$ is equal to

\boxed{v_1\left(t_f\right)=-gt_f+v_0=-10\cdot 5+20=-30\ m/s}

5. When the rocks are at the same height, what is the velocity of the second rock?

View answer

The velocity of the second rock at time $t_f$ is equal to

\boxed{v_2\left(t_f\right)=-gt_f=-10\cdot 5=-50\ m/s}