The motion of a vibrating particle is defined by the position vector r = 10(1 − e−3t)i + (4e−2tsin 15t)j, where r and t are expressed in millimeters and seconds, respectively. Determine the velocity and acceleration when t = 0. When t = 0, the velocity is ____mm/s ∡ 63.4° and the acceleration is ____mm/s2 ⦫ _____°

The motion of a vibrating particle is defined by the position vector r = 10(1 − e−3t)i + (4e−2tsin 15t)j, where r and t are expressed in millimeters and seconds, respectively. Determine the velocity and acceleration when t = 0. When t = 0, the velocity is mm/s ∡ 63.4° and the acceleration is mm/s2 ⦫ _°

Horizons: Exploring the Universe (MindTap Course List)

14th Edition

ISBN:9781305960961

Author:Michael A. Seeds, Dana Backman

Publisher:Michael A. Seeds, Dana Backman

Chapter3: Cycles Of The Sun And Moon

Section: Chapter Questions

Problem 12RQ

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Concept explainers

Relative Velocity

It is a measurement of an object with regards to the other object which is moving or stable or stationary. For example, if we are traveling in a bus and the bus is moving at speed of 50km/hr, then our speed is according to the nearby passenger on the bus is zero. According to them, we are not moving. But if one person standing on the ground or road observes us from outside of the bus, according to him we are moving at a speed of 50km/hr and the bus is also moving at a speed of 50km/hr. Now, the motion is recognized by the observer, it depends on a frame of reference or observer. This is motion called relative motion.

Question

The motion of a vibrating particle is defined by the position vector r = 10(1 − e^−3t)i + (4e^−2tsin 15t)j, where r and t are expressed in millimeters and seconds, respectively.

Determine the velocity and acceleration when t = 0.

When t = 0, the velocity is ____mm/s ∡ 63.4° and the acceleration is ____mm/s² ⦫ _____°.

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