Answer:
The correct option is;
B. Object X travels at -2 m/s and object Y travels at 4 m/s after the spring is no longer compressed
Explanation:
The given parameters are;
The mass of object Y = M
The mass of object X = 2·M
The initial velocity of object X and object Y = 0 m/s
Let A represent the velocity of object X after the spring is released and B represent the velocity of object Y after the spring is released, therefore, by the principle of the conservation of linear momentum, we have;
(M + 2·M) × 0 = M × B + 2·M × A
∴ (M + 2·M) × 0 = 0 = M × B + 2·M × A
M × B = -2·M × A
∴ B = -2·A
Therefore, the velocity of the object Y = -2 × The velocity of the object X
Whereby the velocity of the object X = -2, The velocity of the object Y = -2 × -2 = 4
Which gives, object X travels at -2 m/s and object Y travels at 4 m/s after the spring is no longer compressed.
I would say…
B) they have many current paths
Answer:
Its Moving at a constant Speed of 90km/hr
You can convert this speed to Meters/Second or Change it to Km/Second(Because we need our distance in Km)
So 90km/hr x 1/60 x1/60
=90km/3600sec
v=0.025km/sec
When an Object Moves at Constant Speed... Its displacement(distance) is given by
d=vt
given v=0.025km/sec
t=1sec
d=0.025km/sec x 1sec
d=0.025km.
Answer:
Ans 171.875 m(according to the units)
Explanation:
As we know,
to find the distance, we need to use this eqn..
speed = distance/ time
So, time is 1.92 s (as given)
the speed is 330 m/s ( in air speed)
so to find it is easy to find by using this
eqn..
speed =distance/time
330 =distance/1.92
330/1.92 =distance
171.875 = distance
Diffraction
Explanation:
The phenomenon through which a beam of light spreads out after leaving the flashlight and the beam grows wider and wider is known as diffraction.
Diffraction is one of the characteristics of waves. It implies the ability of waves to bend round an obstacle. The photons of light are able to bend round obstructions and continue to infinity in space.
The rays grow bigger and bigger due to constructive interference of the waves along the way.
Learn more:
Diffraction brainly.com/question/9971072
Diffraction and reflection brainly.com/question/3183125
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