Please provide the correct answer Problem 2: A block with a mass of m = 1.5 kg rests on a wooden plank. The coefficient ofstatic friction between the block and the plank is u, = 0.84. One end of the board is attached to ahinge so that the other end can be lifted forming an angle, 0, with respect to the ground. Assume thex-axis is along the plank as shown in the figure.m Part (b) Assuming the x-direction is along the plank as shown, find an expression for the component of the force of gravity in the y-direction, Fpy,perpendicular to the plank in terms of given quantities and variables available in the palette.Fgy=

Given Mass of block,M = 1.5 kg Coefficient of static friction,u = 0.84

Part (b) Assuming the x-direction is along the plank as shown, find an expression for the component of the force of gravity in the y-direction, perpendicular to the plank in terms of given quantities and variables available in the palette. F,

Part (b) Assuming the x-direction is along the plank as shown, find an expression for the component of the force of gravity in the y-direction, perpendicular to the plank in terms of given quantities and variables available in the palette. F,

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter14: Static Equilibrium, Elasticity, And Fracture

Section: Chapter Questions

Problem 64PQ: A One end of a metal rod of weight Fg and length L presses against a corner between a wall and the...

See similar textbooks

Related questions

Q: A horizontal force F is applied on block A (as shown in Figure (a)). Block A is attached another…

Q: Problem 1: A horizontal force, F, = 65 N, and a force, F2 = 18.1 N acting at an angle of 0 to the…

A: We have to calculate the acceleration of the block. Given :- The forces are F1=65 N , F2=18.1 N.…

Q: Problem 5: A student throws a water balloon with speed vo from a height h = 1.52 m at an angle 0 =…

A: Given : h = 1.52 m θ = 35° d = 7.5 m

Q: 1. Which of the followings can be considered as the electric flux of a non-uniform electric field…

A: (1) The electric flux of a non-uniform electric field passing through an open surface is given by :…

Q: Part (b) Assuming the child is traveling at the speed found in part (a), what is their apparent…

Q: Problem 4: A toy car is rolling down the ramp as shown in the figure. The car's mass is m = 1.1 kg…

Q: The position of a particle is given by r = (at“)i + (br’)j + (ct²)k, where a, b, and c are…

A: Given data: The position of the particle r = (at2)i + (bt3)j + (ct-2)k a, B and c are constants…

Q: Create an expression for the ball's initial horizontal velocity, vox, in terms of the variables…

Q: a Part I R, Rz 3 E = 7 Volts, R1 = 44 kQ and R2 = 33 kQ 1. Using Kirchoff's law find Current through…

Q: 1. Which of the followings can be considered as the electric flux of a non-uniform electric field…

Q: Problem 5: A contestant in a winter sporting event pushes a 46 kg block of ice in the positive…

Q: Problem 4: Shown to the right is a block of mass m = 12.8 kg sitting on a ramp that makes an angle 0…

Q: Problem 9: Circular turns of radius r in a race track are often banked at an angle 0 to allow the…

Q: Part (d) Now write the magnitude of the normal force again, this time in terms of the gravitational…

Q: Problem 4: Shown to the right is a block of mass m = 12.8 kg sitting on a ramp that makes an angle 0…

A: Given: Mass of the object, m = 12.8 kg Angle between the ramp and horizontal surface, θ = 21o…

Q: A small ball of mass m is attached with a massless cord. The other end of the cord is attached at…

Q: Part (c) Now write the magnitude of the normal force in terms of the force of gravity F, and the…

A: For finding the normal force we have to draw free body diagram first.

Q: Problem 5: A contestant in a winter sporting event pushes a 46 kg block of ice in the positive…

A: The free-body diagram of the given problem is:

Q: Suppose a child is riding on a merry-go-round at a distance about halfway between its center and…

A: It is mentioned in question that friction between merry-go-round and lunch box is negligible. Due to…

Q: Part (a) Determine the football's initial horizontal velocity magnitude vor in terms of vhorizontal,…

A: Given Data: The horizontal component of velocity of football at height h is: vhorizontal=17 m/s The…

Q: Use the following constants if necessary. Coulomb constant, k = 8.987 x 10° N m² /C2. Vacuum…

Q: Problem 10: A horizontal force of magnitude F = 56.6 N pushes on a block of mass m = 6.89 kg. The…

Q: Part (a) What is the position vector, Rtarget, that originates from the balloon's original position…

A: Solution: 5. (a). The coordinate of the initial position of the balloon is at a height of h from the…

Q: Part (e) Write an equation for the speed at which the hanging mass hits the floor if it starts…

A: m1= 3.4kg m2 = 1.3kg

Q: Problem 9: Circular turns of radius r in a race track are often banked at an angle 0 to allow the…

Q: Problem 10: An elementary student of mass m = 22 kg is swinging on a swing. The length m the top of…

Q: Problem 9: Circular turns of radius r in a race track are often banked at an angle 0 to allow the…

A: Draw the free body diagram of car Apply centripetal force concept here Take balance in y direction

Q: Write the force F as a vector, in terms of the variables given in the problem statement. Include the…

A: Given, F = 87 N θ = 19o x component of Force ,Fx = Fcos(θ) = 87N×cos(19o) =82.26 N y component of…

Question

Please provide the correct answer

Problem 2: A block with a mass of m = 1.5 kg rests on a wooden plank. The coefficient of
static friction between the block and the plank is u, = 0.84. One end of the board is attached to a
hinge so that the other end can be lifted forming an angle, 0, with respect to the ground. Assume the
x-axis is along the plank as shown in the figure.
m

Part (b) Assuming the x-direction is along the plank as shown, find an expression for the component of the force of gravity in the y-direction, Fpy,
perpendicular to the plank in terms of given quantities and variables available in the palette.
Fgy=

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

A One end of a metal rod of weight Fg and length L presses against a corner between a wall and the floor (Fig. P14.64). A rope is attached to the other end of the rod. Find the magnitude of the tension in the rope if the angle between the rod and the rope is 90.
Need help checking practice problems, image included. Thanks!
A 10.9 m, 265 N uniformly constructed ladder rests against a frictionless wall, making an angle of 58.3 degrees with the horizontal. A 593 N man climbs 8.8 m up the ladder. If the ladder is just on the verge of slipping. what is the coefficient of static friction between the ladder and the ground? H₂ =
One end of a uniform meter stick is placed against a vertical wall. The other end is held by a lightweight cord that makes an angle ? with the stick. The coefficient of static friction between the end of the meter stick and the wall is us =0.40. A. What is the maximum value the angle ? can have if the stick is to remain in equilibrium? B. s) A block of the same weight as the meter stick is suspended from the stick, as shown, at a distance x from the wall. Assume that angle ? = 15° in this problem. What is the minimum value of x for which the stick will remain in equilibrium? C. When angle ? = 15°, how large must the coefficient of static friction be so that the block can be attached 0.10 m from the left end of the stick without causing it to slip?
An outdoor chair is suspended from a tree by a single cable of length 1.5 m. The mass of the chair and the person sitting in it is a total of 85 kg. If someone pulls the chair through a horizontal distance of 80 cm and holds it there: a. What is the increase in the force exerted by the cable? b. How much sideways force must be exerted to hold the chair at that location?
A 1 530-kg automobile has a wheel base (the distance between the axles) of 2.80 m. The automobile's center of mass is on the centerline at a point 1.25 m behind the front axle. Find the force exerted by the ground on each wheel. each front wheel each rear wheel 3.345 X This is the force that acts on a rear wheel. kN You appear to have correctly calculated this force using your incorrect result from part (a). kN
16. ao The drawing shows a rectangular piece of wood. The forces applied to corners B and D have the same magnitude of 12 N and are directed parallel to the long and short sides of the rectangle. The long side of the rectangle is twice as long as the short side. An axis of ro- tation is shown perpendicular to the plane of the rectangle at its center. A third force (not shown in the drawing) is applied to cor- ner A, directed along the short side of the rectangle (either toward B or away from B), such that the piece of wood is at equilib- rium. Find the magnitude and direction of the force applied to corner A. A D Axis Problem 16
A stick with a mass of 0.215 kg and length 0.440 m rests in contact with one end on a ball and the other on a rough floor. The angle the stick makes with the horizontal is 30.0°. There is no friction between the stick and the ball, but friction with the floor must be accounted for. The force on the stick due to the ball is radially outward (perpendicular to the stick). a) Draw a rigid body diagram representing all forces. b) Write the sum of force and sum of torque equations. c) What is the force on the stick due to the ball? d) What are the forces on the stick due to the floor?
A ladder of weight W stands on a rough floor and rests against a frictionless wall, illustrated above. It is only stable if the angle between the ladder and the ground is greater than theta (theta > 60 degree). a. Find the coefficient of static friction between the floor and the ladder. b. A child of weight 4W places the ladder against the wall at angle 70 degree(theta = 70 degree). Calculate how far up the ladder it is safe for the child to climb.
Kindly answer the following:
In the figure, a horizontal scaffold, of length 2.26 m and uniform mass 59.9 kg, is suspended from a building by two cables. The scaffold has dozens of paint cans stacked on it at various points. The total mass of the paint cans in 79.9 kg. The tension in the cable at the right is 739 N. How far horizontally from that cable is the center of mass of the system of paint cans? Number i Units m
Determine the horizontal force P required to cause slippage to occur. The friction coefficients for the three pairs of mating surfaces are indicated. The top block is free to move vertically.