EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
9th Edition
ISBN: 9780100461260
Author: SERWAY
Publisher: YUZU
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Chapter 4, Problem 4.73AP

A spring cannon is located at the edge of a table that is 1.20 m above the floor. A steel ball is launched from the cannon with speed vi at 35.0° above the horizontal. (a) Find the horizontal position of the ball as a function of vi at the instant it lands on the floor. We write this function as x(vi). Evaluate x for (b) vi = 0.100 m/s and for (c) vi = 100 m/s. (d) Assume vi is close to but not equal to zero. Show that one term in the answer to part (a) dominates so that the function x(vi) reduces to a simpler form. (c) If vi is very large, what is the approximate form of x(v)? (f) Describe the overall shape of the graph of the function x(vi).

(a)

Expert Solution
Check Mark
To determine

The ball’s horizontal position as a function of vi.

Answer to Problem 4.73AP

The horizontal position of the ball as a function of vi is vi(0.002299vi2+0.1643)12+0.04794vi2.

Explanation of Solution

The location of the spring cannon is 1.20m above the floor and the launch angle of the ball with speed vi is 35.0° above the horizontal.

Write the formula to calculate the vertical distance covered by the ball

    y=yo+vyt12gt2                                                      (I)

Here, y is the vertical distance covered by the ball, vy is the component of the velocity in y direction, t is the time interval, g is the acceleration due to gravity and yo is the initial vertical distance above the floor.

Write the formula to vertical component of the velocity

    vy=visinθ

Here, vi is the velocity of the ball during projectile motion.

Substitute visinθ for vi in equation (I).

    y=yo+visinθ×t12gt2

Substitute 1.2m for yo, 0 for y, 35.0° for θ and 9.81m/s2 for g to find t.

    0=1.2m+visin35.0°×t129.81m/s2×t20=9.81m/s2×t22visin35.0°×t1.2m                                              (II)

Solve the equation (II).

    t=0.05846vi+(3.4184×103vi2+0.2446)12

Write the formula to calculate the horizontal distance covered by the ball

    x=vxt                                                                                            (III)

Here, vx is the component of velocity in x direction and t is the time interval.

Write the expression for the horizontal component of the velocity

    vx=vicosθ

Substitute vicosθ for vx and 0.05846vi+(3.4184×103vi2+0.2446)12 for t in equation (III).

    x=vicosθ×(0.05846vi+(3.4184×103vi2+0.2446)12)

Conclusion:

Substitute 35.0° for θ in above expression.

    x=vicos35.0°×(0.05846vi+(3.4184×103vi2+0.2446)12)=vi(0.002293vi2+0.1641)12+0.04788vi2                    (IV)

Therefore, the horizontal position of the ball as a function of v1 is vi(0.002293vi2+0.164)112+0.04788vi2.

(b)

Expert Solution
Check Mark
To determine

The horizontal position of the ball with vi=0.100m/s.

Answer to Problem 4.73AP

The horizontal position the ball with vi=0.100m/s is 0.0410m.

Explanation of Solution

From equation (IV),

    x=vi(0.002293vi2+0.1641)12+0.04788vi2

Substitute 0.100m/s for vi in above expression.

    x=(0.100m/s)(0.002293(0.100m/s)2+0.164)12+0.04788(0.100m/s)2=0.0410m

Conclusion:

Therefore, the horizontal position the ball as vi=0.100m/s. is 0.0410m.

(c)

Expert Solution
Check Mark
To determine

The horizontal position of the ball with vi=100m/s.

Answer to Problem 4.73AP

The horizontal position the ball with vi=100m/s is 959m.

Explanation of Solution

From equation (IV),

    x=vi(0.002293vi2+0.1641)12+0.04788vi2

Conclusion:

Substitute 100m/s for vi in above expression.

    x=(100m/s)(0.002293(100m/s)2+0.1641)12+0.04788(100m/s)2=959m

Therefore, the horizontal position the ball as vi=100m/s is 959m.

(d)

Expert Solution
Check Mark
To determine

The horizontal position of the ball as a function of v1 in a simpler form.

Answer to Problem 4.73AP

The horizontal position of the ball as a function of vi in a simpler form is 0.405v1.

Explanation of Solution

The located at the spring cannon is 1.2m above the floor and a ball is launched from the cannon with speed vi at 35° above the horizontal.

From equation (IV),

    x=vi(0.002293vi2+0.1641)12+0.04788vi2

The value of vi is nearly to zero that is v120.

Conclusion:

Substitute 0 for vi2 in above expression.

    x=vi(0.002293×0+0.16431)12+0.04788×0=0.405vi

Therefore, the horizontal position of the ball as a function of vi in a simpler form is 0.405vi.

(e)

Expert Solution
Check Mark
To determine

The horizontal position of the ball as a function of vi if the value of vi is very large.

Answer to Problem 4.73AP

The horizontal position of the ball as a function of vi is 0.095vi2 if the vi is very large.

Explanation of Solution

The located at the spring cannon is 1.2m above the floor and a ball is launched from the cannon with speed vi at 35° above the horizontal.

From equation (4),

    x=vi(0.002293vi2+0.1641)12+0.04788vi2=(0.002293vi4+0.1641vi2)12+0.04788vi2

Conclusion:

The term is vi very small compared to the vi2, so neglect the term 0.1643vi2.

    x=(0.00229vi4)12+0.0479vi2=0.0958vi2

Therefore, the horizontal position of the ball as a function of vi is 0.095vi2 if the vi is very large.

(f)

Expert Solution
Check Mark
To determine

The overall shape of the graph of position as a function of velocity.

Answer to Problem 4.73AP

The starting condition graph x versus vi is a straight line then with an increase in the value of vi curve become closer to the parabola.

Explanation of Solution

From the approximation in part (d), it follows that the position curve is a straight line with slope 0.405s for smaller values of vi and as vi increases, the curve becomes parabolic following the approximation in part (e).

Conclusion:

Therefore, the starting condition graph x versus vi is a straight line then with an increase in the value of vi curve become closer to the parabola.

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Chapter 4 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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