A Sample Of Copper Absorbs 43 6 Kj Of Heat
A Sample Of Copper Absorbs 43 6 Kj Of Heat - A sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 40.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/gºc. Determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/gâ°c. We are given the heat, the temperature and the specific heat of copper. We have to find the mask of the change in temperature. C = specific heat of copper = 0.385 j/g/deg. The heat per gram degree centigrade of the couple is 0.385 joules. Step 1/3first, we need to convert the heat absorbed from kj to j: M = mass = ? Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 20.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. A sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0oc.
Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 40.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. Q = heat = 43.6 kj = 43,600 j. This problem has been solved! Web the mass of the copper sample that absorbed 43.6 kj of heat and experienced a temperature rise of 75.0°c is 1.51 kg, given that the specific heat capacity of copper is 0.385 j/g°c. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. Web chemistry and math tutor. Here’s the best way to solve it.
Determine the mass (in kg) of the copper sample if the specific heat capacity of. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 20.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. 100% (2 ratings) share share. In this case, we are given that the heat absorbed (q) is 43.6 kj and the temperature rise (δt) is 90.0°c.
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A sample of copper absorbs 43 6 kJ of heat, resulting in a temperature
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[Solved] Question 5 (1 point) A sample of copper absorbs 43.6 kJ of
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A sample of Copper absorbs 43.6 KJ of heat, resulting in a temperature
Solved A sample of copper absorbs 43.6 kJ of heat, resulting
A sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0oc. 100% (2 ratings) share share. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. 1.8k views 5 years ago. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 40.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c.
A sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0oc. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 40.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. Here’s the best way to solve it. This problem has been solved! We want to find out the mass.
A sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75°c, determine the. Q = heat = 43.6 kj = 43,600 j. We are given the heat, the temperature and the specific heat of copper. Two students are given energy from copper.
43.6 Kj = M (0.385 J/G°C) (30.0°C) Simplifying, We Can Convert Kj To J And Cancel Out The Units Of °C:
Web the mass of the copper sample that absorbed 43.6 kj of heat and experienced a temperature rise of 75.0°c is 1.51 kg, given that the specific heat capacity of copper is 0.385 j/g°c. Two students are given energy from copper. 100% (2 ratings) share share. First, we need to use the formula:
Here’s The Best Way To Solve It.
Web to determine the mass of the copper, we can use the equation q = mcδt, where q is the heat absorbed, m is the mass, c is the specific heat capacity, and δt is the temperature change. We are given the heat, the temperature and the specific heat of copper. Web chemistry and math tutor. M = mass = ?
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Determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/gâ°c. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. Use the formula q = mcδt to find the mass (m) of the copper sample 43.6 x 10^3 j = m x 0.385 j/g°c x 50.0°c m = (43.6 x 10^3 j) / (0.385 j/g°c x 50.0°c) m = 2.26 kg \textbf {the mass of the copper sample is 2.26 kg.} Determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/goc.
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The specific heat capacity of copper (c) is 0.39. 7.94 kg 1.26 kg 1.51 kg 3.64 kg 6.62 kg. Web a sample of copper absorbs 43.6 kj of heat, resulting in a temperature rise of 75.0°c, determine the mass (in kg) of the copper sample if the specific heat capacity of copper is 0.385 j/g°c. Web 1 expert answer.