The net force that acts on a body with a mass of 650 kilograms is given...

A force F= (3.14t)i+ 6.28j + (1.57t^2)k N acts on a mass of 0.785 kg in...

A force F= (3.14t)i+ 6.28j + (1.57t^2)k N acts on a mass of 0.785 kg in space, with initial velocity v= 7.21i + 9.76j + 3.25k (m/s). At t = 1.71 s, (a) What are the magnitude and direction of the acceleration? (relative to +z axis) (b) What are the magnitude and direction of the velocity? (relative to +y axis) (c) What are the magnitude and direction of the displacement? (relative to +x axis) (d) The angle between the velocity...

When using Newton’s 2nd law, draw a free body diagram (Question) An object moves according to...

When using Newton’s 2nd law, draw a free body diagram (Question) An object moves according to the following equation: Θ (t) = 7t2 + 3t -1, angle in radians and time in seconds. a. Find the average angular speed from t = 0 to t = 2 seconds. b. Find the instantaneous speed at t = 2 seconds. c. Find the average angular acceleration from t = 0 to t = 2 seconds. d. Find the instantaneous angular acceleration at...

mass of 2kg moves horizontally along x axis under the action of a force in terms...

mass of 2kg moves horizontally along x axis under the action of a force in terms of time, given as following: F(t) = b sin wt , where t time in seconds , b and w are constants 1) find the impulse during t1=0 to t2=2 if the mass starts motion from rest at x=0 (Show in integration IN DETAIL) 2) find its velocity as function of time (IN DETAIL) 3) find its position as function of time (IN DETAIL)

At t=0 a body of unit mass initially at rest at the origin begins to move...

At t=0 a body of unit mass initially at rest at the origin begins to move along the x-axis under the influence of a force ? = 1/√(1 + ?^3), Find the velocity of the body at intervals of 0.2 from t=0 to t=2. Use Simpson Rule (1/3). Note: Newton second law, F = m . a , where F: force , m: mass and a : acceleration

At time t = 0, force F→1=(-5.99î+8.78ĵ)N acts on an initially stationary particle of mass 1.80...

At time t = 0, force F→1=(-5.99î+8.78ĵ)N acts on an initially stationary particle of mass 1.80 × 10-3 kg and force F→2=(2.86î-3.46ĵ)N acts on an initially stationary particle of mass 3.68 × 10-3 kg. From time t = 0 to t = 2.97 ms, what are the (a) magnitude and (b) angle (relative to the positive direction of the x axis) of the displacement of the center of mass of the two-particle system? (c) What is the kinetic energy of...

2.    A horizontal, 50 N force acts on a 5 kg mass, which is initially at...

2.    A horizontal, 50 N force acts on a 5 kg mass, which is initially at rest on a frictionless surface. After the mass has traveled 45 m, find the following: (25 points)        Given: (1 point)        a. the work done by the force. (4 points)        b. the change in kinetic energy. (4 points)        c. speed of the mass after 45 m. (4 points)        d. the change in momentum of the mass. (4 points)        e....

A particle of mass m, is under the influence of a force F given by F...

A particle of mass m, is under the influence of a force F given by F = Fo [(sin ωt)ˆi + (cos ωt) ˆj] where F0, ω are positive constants. If at t = 0 the particle is at rest at the origin, find (a) the equations of motion x (t) and y (t) of the particle, and (b) the work done by the force F from t = 0 to t = 2π/ω.

Q1: A body of mass 10kg is attached to one end of a cord, the other...

Q1: A body of mass 10kg is attached to one end of a cord, the other end of which is fixed to a peg in a wall.  The body is pulled aside by a horizontal force so that the cord is inclined at an angle of 30° to the vertical. Find the horizontal force and tension in the string. Q2: A body of mass 4 kg is attached to one end of a string, the other end of which is fixed...

A spring-mass system has a spring constant of 3 N/m. A mass of 2 kg is...

A spring-mass system has a spring constant of 3 N/m. A mass of 2 kg is attached to the spring, and the motion takes place in a viscous fluid that offers a resistance numerically equal to the magnitude of the instantaneous velocity. (a) If the system is driven by an external force of (12 cos 3t − 8 sin 3t) N, determine the steady-state response. (b) Find the gain function if the external force is f(t) = cos(ωt). (c) Verify...

A 4.71 kg mass moving in space according to v= (6.00t2 - t)i + (15.0t2)j +(t3...

A 4.71 kg mass moving in space according to v= (6.00t2 - t)i + (15.0t2)j +(t3 + 3.14t)k (relative to the origin), with v in meter/second and t in seconds. At t= 1.57s (a) what are the magnitude and direction of the force acting on the mass (b) what is the angle between the acceleration and velocity vector (c) what is the average velocity? (d) What is the mass angular momentum relative to the origin? (e) What is the torque...