B- The solid body (B) of mass m = 800 g is joined to (S) as shown in the given figure. The elastic limit of the spring is reached at a maximum elongation of 5 cm. a) Find the elongation of the spring and deduce its length. D) Find the mass of a body hooked to the free end of the spring when its length becomes 18 cm. c) Can we apply Hooke's law when a body of mass 1500 g is hooked to its free end? What would happen in this case? (S) ho elastir spring before it loses

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c) Find the stiffness of the spring. is reached at a maximum elongation of 5 cm. a) Find the elongation of the spring and deduce its length. b) Find the mass of a body hooked to the free end of the spring when its length becomes 18 cm. c) Can we apply Hooke's law when a body of mass 1500 g is hooked to its free end? What would happen in this case? d) Find the maximum mass that can be hooked to the free end of the elastic spring before it loses its elasticity. e) Complete the adjacent (S) Mass m (g) 100 200 300 600 table: (B) T (N) x (ст) f) Draw the characteristic curve of tension in terms of elongation, what do you notice?