The spring in the figure below has a spring constant of 1150 N/. It is compressed...
The spring in the figure has a spring constant of 1000 N/m. It is compressed 13.0 cm, then launches a 200 g block. The horizontal surface is frictionless, but the block's coefficient of kinetic friction on the incline is 0.210. (Figure 1) - Part A What distance d does the block sail through the air? Express your answer with the appropriate units. C: A 0 = ? Value Units Submit Request Answer Figure 1 of 1 > < Return to...
the spring in the figure has a spring constant of 1200N/m. It is compressed 16.0cm,then launches a 200g block. The horizontal surface is frictionless, but the blocks coefficient of kinetic friction on the incline is 0.180. Note: the height is 2.0m and the angle 45 degrees a)what distance d does the block sail through the air?
The spring is compressed 15 cm and launches a 200 g block from
rest. The horizontal floor is frictionless but the incline is not
with a coefficient of kinetic friction equal to µk = 0.15 between
block and incline. Spring constant k = 2000 N/m.
(a) Find the horizontal distance d the block moves through the
air.
(b) If the block breaks up into two pieces in mid-flight from
internal forces, one piece consisting of 2/3 the mass of the...
Please answer part 1 and 2 carefully. Again, please and thank
you
Part 1:
The spring in the figure has a spring constant of 1000 N/m . It
is compressed 15.0 cm , then launches a 200 g block. The horizontal
surface is frictionless, but the block's coefficient of kinetic
friction on the incline is 0.180. (Figure 1)
What distance d does the block sail through the
air?
Express your answer with the appropriate
units.
---------------------------
Part 2:
A 190...
Please show all work
1. A horizontal massless spring with spring constant 300 N/m is compressed 20 cm. The spring launches the block of mass 1 kg. When the block reaches the other side of the room it compresses a massless spring 600 N/m as shown in the figure. The surface is frictionless except the small part of length 2m, which has a coefficient of kinetic friction 0.2. Find the maximum compression of the spring 600 N/m. 300 N/m 600N/m...
Problem 5 A spring with a spring constant k=200 N/m is used as a launcher for a small block whose mass is 10 g. The block is placed against the compressed spring in a horizontal arrangement on a smooth horizontal surface. The spring, with the block, is compressed 5 cm and then released. a) Find the speed of the block just as it leaves the spring b) The block encounters a rough surface as it leaves the spring. How much...
A block of mass m = 3.5 kg is attached to a spring with spring constant k = 780 N/m. It is initially at rest on an inclined plane that is at an angle of θ = 28° with respect to the horizontal, and the coefficient of kinetic friction between the block and the plane is μk = 0.19. In the initial position, where the spring is compressed by a distance of d = 0.19 m, the mass is at...
A spring with spring constant 28 N/m is compressed a distance of 7.5 cm by a ball with a mass of 201.5 g (see figure below). The ball is then released and rolls without slipping along a horizontal surface, leaving the spring at point A. The process is repeated, using a block instead, with a mass identical to that of the ball. The block compresses the spring by 7.5 cm and is also released, leaving the spring at point A....
A block of mass 1.8 kg is attached to a horizontal spring that has a force constant 900 N/m as shown in the figure below. The spring is compressed 2.0 cm and is then released from rest. (a) A constant friction force of 3.4 N retards the block's motion from the moment it is released. How much is the spring compressed when the speed of the block is a maximum. (b) What is the maximum speed?
The spring in the figure (Figure 1)
(a) is
compressed by length ?x. It launches the block across a
frictionless surface with speed v0. The two springs in
thefigure (Figure 2)
(b) are
identical to the spring of thefigure
(a). They are
compressed by the same length ?x and used to launch the
same block.
Part A What is the block's speed now?