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7 July, 09:26

a piece of metal with a mass of 15.3 grams has a temperature of 50.0°C. When the metal is placed in 80.2 grams of water at 21.0°C, the temperature rises by 4.3°C. What is the specific heat capacity of the metal?

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  1. 7 July, 10:41
    0
    c₁ = 3.68 J/g°C

    Explanation:

    The quantity of heat Q gained by a body of mass m, specific heat capacity, c and temperature change ΔT is Q = mcΔT. Let m₁, c₁ and m₂, c₂ represent the masses and specific heat capacities of the metal and water respectively. ΔT₂ for the water = 4.3°C. This means that its final temperature of the water after the metal has been placed in it is 21.0°C + 4.3°C = 24.3°C, which is the final temperature of the metal. So ΔT₁ for metal = 24.3°C - 50.0°C = - 25.7°C.

    Since heat loss equals heat gain

    -m₁c₁ΔT₁ = m₂c₂ΔT₂

    c₁ = - m₂c₂ΔT₂/m₁ΔT₁

    c₁ = - 80.2 * 4.2 * 4.3/15.3 * - 25.7 = - 1448.412 / (-393.21) = 3.683 J/g°C

    c₁ ≈ 3.68 J/g°C
  2. 7 July, 10:59
    0
    1.21

    Explanation:

    Heat rise in the body happens due to heat supplied by water to the body.

    Heat rise in body = m₁ c₁ ΔT₁

    Where m₁ is mass of body and c₁ is its specific heat of body

    Heat lost from water to the body = m₂ c₂ ΔT₂

    Where m₂ is mass of water and c₂ is its specific heat of water (c₂ = 1 (since water))

    Equating both:

    15.3 x c₁ x 4.3 = 80.2 x 1 x 4.3

    ⇒ c₁ = 80.2 / (15.3 x 4.3) = 1.21
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