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1a. The thermal energy store of the ball and the surroundings increases. The gravitational energy store of the ball decreases. 1b i)

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Presentation on theme: "1a. The thermal energy store of the ball and the surroundings increases. The gravitational energy store of the ball decreases. 1b i)"— Presentation transcript:

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3 1a. The thermal energy store of the ball and the surroundings increases. The gravitational energy store of the ball decreases. 1b i) ∆GPE = weight x ∆h ∆GPE = N x ( 2.5m m ) ∆GPE = N x ( 0.8 m) ∆GPE = J 1bii) Air resistance and in elastic deformation of the ball causes a rise in the thermal store of the ball and its surroundings.

4 2a i) ∆GPE = weight x ∆h ∆GPE = N x ( 0.2m ) ∆GPE = J 2bi) ∆GPE = J x times 2bii) ∆GPE = , J

5 3a i) ∆GPE = mass x gravitational field strength x ∆h
∆GPE = kg x N/kg x m ∆GPE = J 3b ii) ∆ GPE = mass x gravitational field strength x ( 1.8m – 0.3m ) ∆ GPE = kg x N/kg x ( 1.8 – 0.3 ) m ∆ GPE = kg x N/kg x ( 1.8 – 0.3 ) m ∆ GPE = J or J ( to 2 sig figs )

6 4. The thermal energy store of the surroundings increases.

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