A thin uniform steel chain is 10m long with a linear mass density of 2kg m'. The chain т hangs vertically with one end attached to a horizontal axle, having a negligibly small radius compared to its length. What is the work done (in N-m) to slowly wind up the chain on to the axle? The acceleration due to gravity is g = 9.81ms¯.
Q: The loaded cab of an elevator has a mass of 4.70 × 103 kg and moves 191. m up the shaft in 24.0 s at…
A: Calculate the constant speed at which the elevator is moving. v=Dt=191 m24 s=7.958 m/s Here, v is…
Q: (a) How much gravitational potential energy (relative to the ground on which it is built) is stored…
A: Gravitational potential energy.
Q: An ultracentrifuge is a laboratory instrument where tubes containing samples are rotated at high…
A:
Q: (a) If the ball has an initial angular displacement of 15° from the vertical, what is its…
A:
Q: b) A force of magnitude 33 N and with fixed orientation displaces a particle through 5√2 me angle…
A: We are given force on particle. This force is constant. We are also given displacement of particle.…
Q: A skier starts from rest at the top of a hill. The skier coasts down the hill and up a second hill,…
A: Given values, Radius, r=36.7 m
Q: Two identical, thin boards are hinged together at an end as shown below. The length of each board is…
A: Torque is the rotational equivalent of linear force that causes an object to rotate about an axis.…
Q: A gardener pushes a 12 kg lawnmower whose handle is tilted up 37∘ above horizontal. The lawnmower's…
A: Mass of object is Angle is Coefficient of rolling friction is Speed is Note:Find:Power.
Q: Two blocks of mass 5.00kg and 3.00kg are connected via a pulley, as shown in the picture. The system…
A:
Q: A skier starts from rest at the top of a hill. The skier coasts down the hill and up a second hill,…
A:
Q: A force of 3N is applied to an object at an angle of -1 radians to the x-axis. The object slides in…
A: The work done by a force on moving a body by a distance is given by W = F.s = F×s×cosθ, where F =…
Q: A windmill for the generation of electric power has a propeller of diameter 1.8 m. In a wind of 40…
A: Given Diameter = 1.8 m Wind speed…
Q: Hydroelectric power plants convert the gravitational potential energy of falling water into…
A: Part (a) Initial speed of the water, u = 0 use the expression - s = u*t + (1/2)*g*t^2 put the…
Q: A block of mass 1.5 kg is at rest on a frictionless floor. A constant force F is subjected to the…
A:
Q: in a vertical cir to angle 2017
A: Given: Length of thin rod is 2.4 m Mass of heavy ball is 11 kg Initial velocity is 0
Q: (Figure 1) A roller-coaster car may be represented by a block of mass 50.0 kg. The car is released…
A: GIVEN Mass of block (m) =50kg height from block release=54 m radius (R) =…
Q: 6 In Fig. 8-23a, you pull upward on a rope that is attached to a cylinder on a vertical rod. Because…
A:
Q: A 19.8 kg block is dragged over a rough, horizontal surface by a constant force of 183 N acting at…
A: Work done by the frictional force is,
Q: In this problem, the friction is equal to zero. Vector A along the positive X axis = 14.0…
A: The given vectors are:
Q: A point mass of 1.2 kg at the end of a cord is rotated on a frictionless horizontal surface in a…
A: Given that: r= 0.2 m w= 3.8 rad/s m= 1.2 kg We know that I= mr2 where I is the moment of inertia…
Q: You have Two boxes of mass 5.00 kg and 3.00 kg that are attached via a pulley, as seen in the…
A:
Q: , how much work is done by the man against gravity in climbing to the top?
A: If the acted force is F and for the force displacement is dr then We know work ,…
Q: 9.0 kg 1.0 m 1.2 kg 2.0 m 2.5 kg
A:
Q: A cyclist with a mass (biker/bike combined) of m = 63.4 kg climbs a slope at a constant speed of s=…
A: mass m = 63.4 kg speed s = 4.52 m/s the slope makes an angle of 4.33 degrees with the horizantal.
Q: A skier starts from rest at the top of a hill. The skier coasts down the hill and up a second hill,…
A: Initial speed (u) = 0 msRadius of second hill (R) = 35.7 m The height of first hill = h
Q: A lump of putty (0.20 kg) hits a block (1.00 kg) at the bottom of a rough vertical loop that is 1.0…
A:
Q: The figure shows the top view of an object of mass m moving on a uniformly rough horizontal surface.…
A: Given data: Mass of the object, m=7.15 kg Coefficient of friction, μ=0.644 Radius of the…
Q: ladder is raised to a vertical position Compute the work done by the force lifting the ladder. The…
A: Weight of ladder, Length of ladder, The ladder is raised to…
Q: A slingshot, consisting of a leather pouch attached to two rubber bands which are tied to the prongs…
A: Consider the slingshot as a spring as a spring. Hence according to the conservation of energy, the…
Q: A skier starts from rest at the top of a hill. The skier coasts down the hill and up a second hill,…
A: The height of the first hill can be calculated in given steps.Given:Radius of circular hill, r =…
Q: A small block of mass M = 300 kg begins at height h above the ground. It slides down a frictionless…
A:
Q: In the figure the pulley has negligible mass, and both it and the inclined plane are frictionless.…
A:
Q: In an amusement park, a car with a mass of 481 kg rolls in a track as shown below. Note that the…
A: Hi = 50 m HA = 20 m HB = 40 m Hc = 0 m m = 481 kg Speed at A = 21 m/s
Q: A roller-coaster car may be represented by a block of mass 40.0 kg. The car is released from rest at…
A:
Q: A ladder, 10 meters long, is lying on the ground with a total mass of 80 kg. How much work is…
A:
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images
- Computation. The figure shows two blocks, released from rest, connected by a light string passing without slipping over a pulley with moment of inertia 0.032 kg-m² and radius 0.1 m. The coefficient of kinetic friction between the block and the table is 0.38. Using energy methods, find the blocks' speed after they have moved 0.22 m if M = 5.2 kg and m = 7.3 kg. V= M 11 m/s m Record your numerical answer below, assuming three significant figures. Remember to include a as necessary. 31 6:37 PA gardener pushes a 11 kg lawnmower whose handle is tilted up 37∘above horizontal. The lawnmower's coefficient of rolling friction is 0.20. How much power does the gardener have to supply to push the lawnmower at a constant speed of 1.4 m/s? Assume his push is parallel to the handle.A 70 kg secret agent skis down a hill and grabs a 200 kg bag then flies off a 12 m high cliff. The hill can be considered a 1/4 of a circle with a radius of 20 m. The initial mechanical energy of the agent at the top of the hill is 14,560 J relative to the location of the bag. his initial apparent weight is 2521 .4 N and initial velocity is 22.9 m/s D) how far from the base of the cliff does the agent land? Assume the resistance is negligible. E) Assume that the agent in his bag come to rest upon colliding with the ground at the base of the cliff. What is an impulse that he in the bag experiences? Estimate the resulting contact force on the agent. Discuss the likelihood of his living through the collision
- #6The loaded cab of an elevator has a mass of 4.70 × 103 kg and moves 191. m up the shaft in 24.0 s at constant speed. At what average rate does the force from the cable do work on the cab?2. A 1 m long rod of mass m = 0.2 Kg is hinged at one end and connected to a wall. It is held out horizontally, then released. With respect to the reference XY, whose origin is at the hinge (as shown in the figure), calculate: (22 points) The speed of the tip of the rod at the moment it hits the wall? (11 points) The kinetic energy of the rod at the moment it hits the wall? Wall Vtip Y L= 1 m X
- (Figure 1)A roller-coaster car may be represented by a block of mass 50.0 kg. The car is released from rest at a height h = 54.0 m above the ground and slides along a frictionless track. The car encounters a loop of radius R = 18.0 m at ground level, as shown. As you will learn in the course of this problem, the initial height 54.0 m is great enough so that the car never loses contact with the track. Figure Part A h R M Find the kinetic energy K of the car at the top of the loop. Express your answer numerically, in joules. ▸ View Available Hint(s) K = 8820 J Submit Previous Answers Part B Correct 1 of 1 Find the minimum initial height hmin at which the car can be released that still allows the car to stay in contact with the track at the top of the loop. Express your answer numerically, in meters. ▸ View Available Hint(s) ΕΧΕΙ ΑΣΦ hmin = 72.0 ? m Submit Previous Answers Request Answer × Incorrect; Try AgainA car rounds a freeway exit turn of radius 40m at constant speed of 20m/s. The turn goes 3/4 around(not a full circle). How much work is done by the friction force on the car’s tires that allows it to turn?An object with a mass of 56.0 kg is fired with an initial speed of 1.40 102 m/s at an angle of 30.0° above the horizontal from a 142 m high cliff (take ground level to be y = 0 m). (a) Determine the initial total mechanical energy (in J) of the system of the projectile and the earth. Can you express the initial total mechanical energy of the object-earth system in terms of the initial kinetic energy of the object and potential energy of the system? Can you write expressions for the initial kinetic energy of the object and potential energy of the system? J (b) If when the projectile is at its maximum height of y = 346 m, it is traveling 99.2 m/s, determine the amount of work (in J) that has been done on the projectile by air resistance. Can you obtain an expression for the total energy of the system at the object's maximum height? Can you write an expression for the work done on the object by air resistance as it travels to the top of its trajectory in terms of the total energy…