Concept explainers
Race car A is traveling on a straight portion of the track while race car B is traveling on a circular portion of the track. At the instant shown, the speed of A is increasing at the rate of 10 m/s2, and the speed of B is decreasing at the rate of 6 m/s2. For the position shown, determine (a) the velocity of B relative to A, (b) the acceleration of B relative to A.
Fig. P11.141
(a)
The relative velocity
Answer to Problem 11.141P
The relative velocity
Explanation of Solution
Given Information:
The speed
The speed
The speed
The speed
The radius of the circular path
Calculation:
Convert unit kilometer per hour to meter per second.
Consider the velocity
Consider the velocity
Write the velocity of B
Write the velocity of A
Calculate the relative velocity vector
Substitute
Here,
Calculate the relative velocity
Substitute
Calculate the angle
Substitute
Therefore, the relative velocity
(b)
The relative acceleration
Answer to Problem 11.141P
The relative acceleration
Explanation of Solution
Given Information:
The speed
The speed
The speed
The speed
The radius of the circular path
Calculation:
Calculate the normal acceleration
Substitute
The normal acceleration at an angle:
Write the normal acceleration of B
Substitute
Write the tangential acceleration
Substitute
Write the tangential acceleration
The normal acceleration
Calculate the relative acceleration vector
Rewrite the above equation.
Substitute
Here,
Calculate the relative acceleration
Substitute,
Calculate the angle
Substitute,
Therefore, the relative acceleration
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Chapter 11 Solutions
VEC MECH 180-DAT EBOOK ACCESS(STAT+DYNA)
- a 11.167 V To study the performance of a racecar, a high-speed camera is positioned at Point A. The camera is mounted on a mechanism which permits it to record the motion of the car as the car travels on straightway BC. Determine (a) the speed of the car in terms of b, 0, and 0 and (b) the magnitude of the acceleration in terms of b, 0, é , and ê. В C b Aarrow_forwardRace car A is traveling on a straight portion of the track while race car B is traveling on a circular portion of the track. At the instant shown, the speed of A is increasing at the rate of 10 m/s2, and the speed of B is decreasing at the rate of 6 m/s2. For the position shown, determine (a) the velocity of B relative to A, (b) the acceleration of B relative to A.arrow_forwardProblem 11: Particles A and B are traveling around a circular hoop at a speed of 8 m/s at the instant shown. If the speed of B is increasing at constant 4 m/s², and the speed of A is increasing at 0.8t m/s², determine: (a) The time to at which the particles will collide. Ans: t = 2.51s, 14.63 s (b) The magnitude of the accelerations of both particles just before the collision occurs. Ans: a₁ = 22.22aB = ( aA 65.12 8 = 120⁰ r = 5m Problem 12: A boat has an initial speed of 16 ft/s. If it then increases its speed at the rate = 1.5s ft/s², where s is the distance travelled in ft, determine the time needed for the boat to travel s = 50 ft. The path of the boat is a circle of radius p = 80ft. Ans: t = 1.68 sarrow_forward
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