EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
10th Edition
ISBN: 8220106906149
Author: Jewett
Publisher: Cengage Learning US
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Chapter 4, Problem 44AP

A projectile is launched from the point (x = 0, y = 0), with velocity ( 12.0 i ^ 19.0 j ^ ) m / s 2 , at t = 0. (a) Make a table listing the projectile’s distance | r | from the origin at the end of each second thereafter, for 0 ≤ t ≤ 10 s. Tabulating the x and y coordinates and the components of velocity vx and vy will also be useful. (b) Notice that the projectile’s distance from its starting point increases with time, goes through a maximum, and starts to decrease. Prove that the distance is a maximum when the position vector is perpendicular to the velocity. Suggestion: Argue that if v is not perpendicular to r , then | r | must lie increasing or decreasing. (c) Determine the magnitude of the maximum displacement. (d) Explain your method for solving part (c).

(a)

Expert Solution
Check Mark
To determine

The values of the projectile distance |r| for each  second for 0t10s and tabulate the values for 0t10s.

Answer to Problem 44AP

The table for the values of |r| for 0t10s

t(sec)|r|(m)
00
145.7
282.0
3109
4127
5136
6138
7133
8124
9117
10120

Explanation of Solution

The initial position of the projectile is (x=0,y=0), the velocity of the projectile at t=0 is 12.0i^+49.0j^.

The value of the acceleration due to gravity is 9.8m/s2.

Write the formula to calculate the x coordinate of the projectile

    x(t)=uxt+12axt2

Here, ux is the x component of the initial velocity, ax is the acceleration in the x direction and t is the time.

In a vertical projectile the acceleration in x direction is zero.

Substitute 12.0 for ux, 0 for ax in the above equation.

    x(t)=12.0t+12(0)t2=12.0t

Thus, the x coordinate of the position vector is 12.0t.

Write the formula to calculate the y coordinate of the projectile

    y(t)=uyt+12ayt2

Here, uy is the y component of the initial velocity, ay is the acceleration in the y direction and t is the time.

For the vertical projectile the acceleration in y direction is the acceleration due to gravity.

Substitute 49.0 for uy, 9.8m/s2 for ay in the above equation.

    y(t)=(49.0)t+12(9.8m/s2)t2=(49.0)t(4.9m/s2)t2

Thus, the y coordinate of the position vector is (49.0)t(4.9m/s2)t2.

Write the formula to calculate the magnitude of the position vector

    |r|=x2+y2

Substitute 12.0t for x and (49.0)t(4.9m/s2)t2 for y in the above equation.

    |r|=(12.0t)2+[((49.0)t(4.9m/s2)t2)]2

For 0t10s, the table of the values of |r| is shown in the table below.

t(sec)|r|(m)
00
145.7
282.0
3109
4127
5136
6138
7133
8124
9117
10120

Conclusion:

Therefore, the table for the values of |r| for 0t10s

t(sec)|r|(m)
00
145.7
282.0
3109
4127
5136
6138
7133
8124
9117
10120

(b)

Expert Solution
Check Mark
To determine

The distance is maximum when the position vector is perpendicular to the velocity.

Answer to Problem 44AP

The distance is maximum when the position vector is perpendicular to the velocity.

Explanation of Solution

The initial position of the projectile is (x=0,y=0), the velocity of the projectile at t=0 is 12.0i^+49.0j^.

The velocity vector tells about the change in the position vector. If the velocity vector at particular point has a component along the position vector and the velocity vector makes an angle less than 90° with position vector, then the position vector is increasing in magnitude and if the angle is greater than 90° the magnitude of the position vector starts decreasing.

For the position vector to be maximum the distance from the origin must be momentarily at rest or constant and the only possible situation for this is that the velocity vector makes an angle 90° with the position vector.

Conclusion:

Therefore, the distance is maximum when the position vector is perpendicular to the velocity vector.

(c)

Expert Solution
Check Mark
To determine

The magnitude of the maximum displacement.

Answer to Problem 44AP

The magnitude of the maximum displacement is 138m.

Explanation of Solution

The initial position of the projectile is (x=0,y=0), the velocity of the projectile at t=0 is 12.0i^+49.0j^.

The expression for the position vector

    |r|=(12.0t)2+[((49.0)t(4.9m/s2)t2)]2                                             (1)

Square both the sides of the above equation.

    |r|2=(12.0t)2+[((49.0)t(4.9m/s2)t2)]2

Differentiate the above expression with respect to t to calculate the maxima condition for r2.

    ddt|r|2=ddt[(12.0t)2+[((49.0)t(4.9m/s2)t2)]2]

For the maxima condition to calculate the value the value of t for which r2 is maximum substitute 0 for ddt|r|2.

    0=ddt[(12.0t)2+[((49.0)t(4.9)t2)]2]=24.0t+[(98.0t(9.8t2))(49.09.8t)]

Further solve the above expression for t.

    96.04t31440.6t2+4826t=096.04t21440.6t+4826=0

Further solving the above quadratic equation the values of t are 5.70 and 9.9s.

From the table in Part (a) it is evident that after 6s the distance starts to decrease therefore, for t=9.9s the position vector does not has maximum magnitude.

Thus, the maximum value of r(t)2 is at t=5.70s, therefore the maximum value of r(t) is also at t=5.70s.

Substitute 5.70s for t in equation (1).

    |r|max=(12.0(5.70s))2+[((49.0)(5.70s)(4.9m/s2)(5.70s)2)]2=138.21m138m

Conclusion:

Therefore, the maximum distance is 138m.

(d)

Expert Solution
Check Mark
To determine

The explanation for the method used in part (c) calculation.

Answer to Problem 44AP

The maxima and minima condition is used to calculate the maximum magnitude of the position vector.

Explanation of Solution

The initial position of the projectile is (x=0,y=0), the velocity of the projectile at t=0 is 12.0i^+49.0j^.

The maximum or minimum value of any function is easily calculated using the Maxima and Minima condition.

For the part (c) first calculate the critical points by equating the differential of r2 to zero to find the values of t for which has the maximum value.

    ddtr2=0

The value of t where r2 is maximum has also the maximum value at the same t.

Substitute the maximum value of r in the above expression to calculate the maximum magnitude of the position vector.

Conclusion:

Therefore, the maxima and minima condition is used to calculate the maximum magnitude of the position vector.

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Chapter 4 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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