charged particle mass m charge q moves along horizontal surface with coefficient of kinetic friction μ....

A 4.3 kg particle is projected with an initial speed of 3.7 m/s along a surface...

A 4.3 kg particle is projected with an initial speed of 3.7 m/s along a surface for which the coefficient of kinetic friction is 0.8. Find the distance it travels given that: a) the surface is horizontal; b) the particle moves up a 29 degrees incline; c) the particle moves down a 29 degrees incline.

A point particle with known mass, m, and known positive charge, q, is placed at the...

A point particle with known mass, m, and known positive charge, q, is placed at the point (a,b) (Cartesian coordinates). The force of gravity, mg, acts downward the vertical y-direction. A second particle with unknown charge, q1, is fixed at the origin. What constant, horizontal electric field, must be applied so that the charge q will remain at rest?

A mass of 2 kg is placed on a horizontal surface with a coefficient of kinetic...

A mass of 2 kg is placed on a horizontal surface with a coefficient of kinetic friction of 0.3. A force is applied vertically downward to it and another force of 85 Newtons is applied at 18 degrees below the horizontal. As it moves 9 meters in the +x direction it loses 160 Joules of kinetic energy. What is the amount of the force which is applied downward in Newtons?

A constant horizontal force moves a 48 kg trunk 5.0 m along a 25 ° incline...

A constant horizontal force moves a 48 kg trunk 5.0 m along a 25 ° incline upward at constant speed. The coefficient of kinetic friction between the trunk and the incline is 0.23. What are (a) the work done by the applied force and (b) the increase in the thermal energy of the trunk and incline?

A box with a mass of 7.01 kg is sliding along a horizontal surface at constant...

A box with a mass of 7.01 kg is sliding along a horizontal surface at constant velocity. It is pulled by a horizontal force and the coefficient of kinetic friction between the box and the surface is 0.375. Part (a) What is the work done, in joules, by the pulling force as the box moves a distance of 0.495 m? Part (b) What is the work done, in joules, by the force of friction 33% Part (c) What is the...

A mass of 10 kg is travelling over a horizontal surface with friction and the coefficient...

A mass of 10 kg is travelling over a horizontal surface with friction and the coefficient of kinetic friction is 0.53. One additional force of 27 Newtons is applied to it in the +x direction (parallel to the surface). It slides 3 meters in the +x direction. What is the work done by the weight force in Joules?

A 6.53-kg block initially at rest is pulled to the right along a horizontal surface by...

A 6.53-kg block initially at rest is pulled to the right along a horizontal surface by a constant force of 125 N applied at an angle θ above the horizontal. The coefficient of kinetic friction between the block and the horizontal surface is 0.150. At what angle θ above the horizontal surface should the force be applied to achieve the largest possible speed after the block has moved 5.00 m to the right?

A charged particle of charge 4.2 mC and mass 4.7 g is subjected to a magnetic...

A charged particle of charge 4.2 mC and mass 4.7 g is subjected to a magnetic field of 4.6 T, which acts at a right angle to its motion. Due to the magnetic field, the particle moves in a circle. What is the angular speed (ω ) of the particle (in rad/s)? Round off to TWO decimal places. [Hint: look for the relationship between v and ω]

A block of mass m = 10.0kg is pulling along a surface with a constant external...

A block of mass m = 10.0kg is pulling along a surface with a constant external force 40n directed at an angle 30 with the horizontal surface. Coefficient of kinetic friction between the block and the surface is 0.20 how for the block moves horizontally in 6.00 seconds

A particle that has an 8.9-µC charge moves with a velocity of magnitude 3.0 105 m/s...

A particle that has an 8.9-µC charge moves with a velocity of magnitude 3.0 105 m/s along the +x axis. It experiences no magnetic force, although there is a magnetic field present. The maximum possible magnetic force that the charge with the given speed could experience has a magnitude of 0.43 N. Find the magnitude and direction of the magnetic field. Note that there are two possible answers for the direction of the field.