A test rocket in the sky, is falling downward at a constant speed. It does however,...

For his engineering project, Fran¸cois built a model rocket of mass m = 0.55 kg simply...

For his engineering project, Fran¸cois built a model rocket of mass m = 0.55 kg simply by using materials he found lying around the lab and blueprints he found on the internet. The rocket’s propulsion is provided by a special battery-powered fan that is able to provide a constant force |Ffan| = 7.0 N – that is, once it is launched in a specific direction, the direction of the fan’s force does not change. The downside is that the rocket...

1. A person is mowing his lawn. He applies 100 Newton force downward at 37o with...

1. A person is mowing his lawn. He applies 100 Newton force downward at 37o with respect to the horizontal. The mawing machine has a mass of 20 kg, and the lawn presents a 40 Newton horizontal frictional force again the moving direction. (a) draw a free-body diagram for the mowing machine to show all forces it is subject to; (b) Establish a coordinate system of your choice; (c) Apply the Newton's 2nd Law to x-direction and y-direction respectively; (d)...

1. For a stationary ball of mass m = 0.200 kg hanging from a massless string,...

1. For a stationary ball of mass m = 0.200 kg hanging from a massless string, draw arrows (click on the “Shapes” tab) showing the forces acting on the ball (lengths can be arbitrary, but get the relative lengths of each force roughly correct). For this case of zero acceleration, use Newton’s 2nd law to find the magnitude of the tension force in the string, in units of Newtons. Since we will be considering motion in the horizontal xy plane,...

A block with mass 6.00 kg slides on a horizontal floor as it is pulled with...

A block with mass 6.00 kg slides on a horizontal floor as it is pulled with a string by a force of 50.0 N at an angle of 30.0° with the horizontal. The force of friction between the floor and the block is 10 N. A. Draw below a free body diagram for the block. Label all the forces and describe each force: name and source of the force. B. Find the y-component of the net force. Explain your answer....

A box, initially at rest, is pulled by a rope as it slides along a horizontal...

A box, initially at rest, is pulled by a rope as it slides along a horizontal (level) carpeted floor in the positive direction; there is friction. The mass of the box is 8 kg and the tension in the rope has a magnitude of 40 N. After 4 seconds of pulling, the box has a speed of 12 m/s. 1. While the box is being pulled: a. what is the magnitude of acceleration of the box? Answer: _________ b. what...

An object moves with constant speed in the x-direction, but in the y-direction it is subject...

An object moves with constant speed in the x-direction, but in the y-direction it is subject to an acceleration that increases linearly with time: a(t)=bt, where b is a constant. Assume there is no gravity. Derive an equation analogous to y=xtanθ−(g/2V^2cos^2θ0)x^2 giving the object's trajectory in this situation. Note that θ0θ0 is the angle measured from the horizontal, at which the projectile is launched, and v0v0 is its initial speed. Assume the object starts moving from the origin. Express your...

incline01_block1+rope+friction.problem Block 1 (20 kg) is pulled by a rope from left to right up a...

incline01_block1+rope+friction.problem Block 1 (20 kg) is pulled by a rope from left to right up a ramp which is inclined 50 degrees from the horizontal. The rope pulls on block 1 with a force of 300 N parallel to the surface of the inclined plane. The coefficient of kinetic friction between the block and the surface equals 0.1. On a sheet of paper, draw the free body diagram for block 1 using the two-subscript notation from class. Assume that the...

A baseball player standing 20.0m away from a flat-roof garage throws a ball with the speed...

A baseball player standing 20.0m away from a flat-roof garage throws a ball with the speed 16.0m/s at 40◦ above the horizontal. The ball leaves player’s hand 2.0m above the ground and lands on the roof a 4.0m above the ground. How far above the ground does the ball reach? How long is the ball in flight before landing on the roof? How far past the edge of the roof, show as x in the picture, does the ball land?...

1. An Earth satellite moves in a circular orbit 615 km above the Earth's surface. The...

1. An Earth satellite moves in a circular orbit 615 km above the Earth's surface. The period of the motion is 96.8 min. (a) What is the speed of the satellite? (b) What is the magnitude of the centripetal acceleration of the satellite? 2. A rotating fan completes 1200 revolutions every minute. Consider a point on the tip of a blade, at a radius of 0.17 m. (a) Through what distance does the point move in one revolution? (b) What...

Question 1 The study of Uniform Circular Motion relates to objects traveling with constant speed around...

Question 1 The study of Uniform Circular Motion relates to objects traveling with constant speed around a circle with radius, R. Since the object has a constant speed along a circular path, we can also say that A) the object has zero velocity. B) the object has a constant acceleration magnitude. C) the object has zero acceleration. D) the object has a constant velocity. E) the object has an increasing acceleration. Question 2 Uniform Circular Motion (UCM) problems are just...