Answered: A 3.00-kg object undergoes an…

A 3.00-kg object undergoes an acceleration given by a (2.00î + 5.00j) m/s². Find (a) the resultant force acting on the object and (b) the magnitude of the resultant force.

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter1: Introduction: The Nature Of Science And Physics

Section: Chapter Questions

Problem 23PE: If a marathon runner averages 9.5 mi/h, how long does it take him or her to run a 26.22-mi marathon?

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Concept explainers

Gravitational force

In nature, every object is attracted by every other object. This phenomenon is called gravity. The force associated with gravity is called gravitational force. The gravitational force is the weakest force that exists in nature. The gravitational force is always attractive.

Acceleration Due to Gravity

In fundamental physics, gravity or gravitational force is the universal attractive force acting between all the matters that exist or exhibit. It is the weakest known force. Therefore no internal changes in an object occurs due to this force. On the other hand, it has control over the trajectories of bodies in the solar system and in the universe due to its vast scope and universal action. The free fall of objects on Earth and the motions of celestial bodies, according to Newton, are both determined by the same force. It was Newton who put forward that the moon is held by a strong attractive force exerted by the Earth which makes it revolve in a straight line. He was sure that this force is similar to the downward force which Earth exerts on all the objects on it.

Question

3. A 3.00-kg object undergoes an acceleration given by
V a = (2.00i + 5.00j) m/s². Find (a) the resultant force acting
on the object and (b) the magnitude of the resultant force.

Expert Solution

Step 1

Given :

mass of the object, $m = 3 K g$

acceleration of the object, $\vec{a} = (2 \hat{i} + 5 \hat{j}) m / s^{2}$

Determine :

(a)Resultant Force on the object

(b) magnitude of the resultant force

When we apply a force on an object it moves in the direction of the applied force with constant acceleration , the acceleration of the object depends on the mass of the object.

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