008 (part 1 of 3) 10.0 points A block of mass 421 g is pushed against the spring

Question

008 (part 1 of 3) 10.0 points A block of mass 421 g is pushed against the spring (located on the left-hand side of the track) and compresses the spring a distance 4.7 cm from its equilibrium position (as shown in the figure below). The block starts from rest, is accelerated by the compressed spring, and slides across a frictionless horizontal track (as shown in the figure below). It leaves the track horizontally, flies through the air, and subsequently strikes the ground. The acceleration of gravity is 9.81 m/s2 . 421 g 4.7 cm AN 5.53 m What is the spring constant? Answer in units of N/m.

Explanation / Answer

applying conservation of energy we get

(1 / 2) m u2 = (1 / 2) kx2

m u2 = kx2

where u is the speed with which the block leaves the frictionless track

as from the given

R = 5.53 m

h = 2.2 m

u2 = R2 g / 2 h

m (R2 g / 2 h ) = kx2

k = m (R2 g / 2 h ) / x2

= .......... N / m

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