The tube rotates in the horizontal plane at a constant rate of 0 = 4 rad/s as shown in(Figure 1).FigureZ= 4 rad/s0.5 m1 of 1Part AIf a 0.2-kg ball B starts at the origin O with an initial radial velocity of r = 1.5 m/s and moves outward through the tube, determine the radial and transverse components of the ball's velocity at the instant itleaves the outer end at C, r = 0.5 m. Hint: Show that the equation of motion in the direction is - 16r = 0. The solution is of the form r = Ae-4t+ Be¹t . Evaluate the integration constants A and B, anddetermine the time t when r = 0.5 m. Proceed to obtain vr and ve.Enter the components of the velocity separated by a comma. Express your answers in meters per second to three significant figures.Ur, υ θ =SubmitProvide FeedbackIVD ΑΣΦRequest Answer↓1vec?m/sNext >

Given that :mass of the ball, m= 0.2 kgAmplitude equation, Initial rotational velocity of the…

The tube rotates in the horizontal plane at a constant rate of = 4 rad/s as shown in (Figure 1). ▼ Part A If a 0.2-kg ball B starts at the origin O with an initial radial velocity of = 1.5 m/s and moves outward through the tube, determine the radial and transverse components of the ball's velocity at the instant it leaves the outer end at C, r=0.5 m. Hint: Show that the equation of motion in the r direction is - 16r=0. The solution is of the form r = Ae + Be. Evaluate the integration constants A and B, and determine the time t when r=0.5 m. Proceed to obtain t, and ty. Enter the components of the velocity separated by a comma. Express your answers in meters per second to three significant figures. Up, U= Submit Provide Feedback VO Azp AE Request Answer → ? m/s Next:

The tube rotates in the horizontal plane at a constant rate of = 4 rad/s as shown in (Figure 1). ▼ Part A If a 0.2-kg ball B starts at the origin O with an initial radial velocity of = 1.5 m/s and moves outward through the tube, determine the radial and transverse components of the ball's velocity at the instant it leaves the outer end at C, r=0.5 m. Hint: Show that the equation of motion in the r direction is - 16r=0. The solution is of the form r = Ae + Be. Evaluate the integration constants A and B, and determine the time t when r=0.5 m. Proceed to obtain t, and ty. Enter the components of the velocity separated by a comma. Express your answers in meters per second to three significant figures. Up, U= Submit Provide Feedback VO Azp AE Request Answer → ? m/s Next:

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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Conservation of Energy

In physics, the rule of the conservation of energy states that energy doesn’t disappear from the atmosphere; instead, it changes its form from one type to another. Energy is one of the most important physical quantities in nature, and it cannot be created or destroyed — only transformed.

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The tube rotates in the horizontal plane at a constant rate of 0 = 4 rad/s as shown in
(Figure 1).
Figure
Z
= 4 rad/s
0.5 m
1 of 1
Part A
If a 0.2-kg ball B starts at the origin O with an initial radial velocity of r = 1.5 m/s and moves outward through the tube, determine the radial and transverse components of the ball's velocity at the instant it
leaves the outer end at C, r = 0.5 m. Hint: Show that the equation of motion in the direction is - 16r = 0. The solution is of the form r = Ae-4t+ Be¹t . Evaluate the integration constants A and B, and
determine the time t when r = 0.5 m. Proceed to obtain vr and ve.
Enter the components of the velocity separated by a comma. Express your answers in meters per second to three significant figures.
Ur, υ θ =
Submit
Provide Feedback
IVD ΑΣΦ
Request Answer
↓1
vec
?
m/s
Next >

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