Answer:
Zeros located at the end of significant figures are significant.
Explanation:
Hope it will help :)
Answer:
The temperature of the system once equilibrium is reached, is 292 Kelvin
Explanation:
Step 1: Data given
Mass of H2O = 34.05 grams
⇒ temperature = 273 K
Mass of H2O at 310 K = 185 grams
Pressure = 1 bar = 0.9869 atm
Step 2: Calculate the final temperature
n(ice)*ΔH(ice fusion) + n(ice)*CP(H2O)(Tfinal- Ti,ice) + n(H20)*CP(H2O)*(Tfinal-Ti,H2O) = 0
Tfinal = [n(ice)*CP(ice)*Ti(ice) + n(H2O)*CP(H2O)*Ti(H20) - n(ice)*ΔH(ice fusion)] / [n(ice)*CP(ice) +n(H2O)*CP(H2O)]
⇒ with n(ice) = moles of ice = 34.05 grams / 18.02 g/mol = 1.890 moles
⇒ with CP(ice) = 75.3 J/K*mol
⇒ with Ti(ice) = the initial temperature of ice = 273 K
⇒ with n(H2O) = the moles of water = 185.0 grams / 18.02 g/mol = 10.27 moles
⇒ with CP(H2O) = CP(ice) = 75.3 J/K*mol
⇒ with Ti(H2O) = the initial temperature of the water = 310 K
⇒ with ΔH(ice, fusion) = 6010 J/mol
Tfinal = [1.890 moles * 75.3 J/K*mol * 273 + 10.27 mol * 75.3 J/K*mol * 310 K - 1.890 moles * 6010 J/mol] / [1.890 moles *75.3J/k*mol + 10.27 mol * 75.3 J/K*mol]
38852.541 + 239732.61 - 11358.9 = 267226.251
Tfinal= 291.8 ≈ 292 Kelvin
The temperature of the system once equilibrium is reached, is 292 Kelvin
We must use the principle of conservation of energy to equate the heat gained by the ice to the heat lost by the water, in a given equation, to calculate the final equilibrium temperature.
The topic here is thermodynamics, specifically calculating the final equilibrium temperature when two substances are mixed. Given the information, we can apply the principle of conservation of energy, which in this context is the heat gained by one substance is equal to the heat lost by the other. In this case, the heat gained by the ice (H2O(s)) as it melts and increases in temperature is equal to the heat lost by the water (H2O(l)). Therefore, we have the equation 34.05 g * 1 kcal/kg * K *(T - 273 K) + 34.05 g * 80 Cal/g = 185 g * 1 kcal/kg*K *(310 K - T) where T is the final temperature to be solved.
#SPJ3
A single monkey is not an ecosystem
As ecosystem comprises of all the living and non living parts a community under study.
So if have define an ecosystem of which monkey is a part then we have to include the living organism like tress and monkey and the non living parts like rock and wind which affects the living organism.
B. net movement of water will be equal
C. water will not move into or out of the cell
D. water will rush out of the cell
Answer with double replacement
Answer:
Barium chloride + Sodium phosphate → barium phosphate + sodium chloride
Explanation:
Double replacement:
It is the reaction in which two compound exchange their ions and form new compounds.
AB + CD → AC +BD
Chemical equation:
BaCl₂ + Na₃PO₄ → Ba₃(PO₄)₂ + NaCl
Balanced chemical equation:
3BaCl₂ + 2Na₃PO₄ → Ba₃(PO₄)₂ + 6NaCl
The cation and anion of both reactants are exchanged with each other.
Ba²⁺ react with PO₄³⁻ and form Ba₃(PO₄)₂ while Cl⁻ react with Na⁺ and form sodium chloride.
Molecular equation:
Barium chloride + Sodium phosphate → barium phosphate + sodium chloride
A double replacement reaction between barium chloride and sodium phosphate results in the formation of barium phosphate and sodium chloride.
The given chemical equation represents a double replacement reaction. The chemical reactants are barium chloride (BaCl2) and sodium phosphate (Na3PO4). In a double replacement reaction, the cations and anions of the two reactants switch places to form two new compounds.
So here is how the reaction would proceed: BaCl2 + Na3PO4 -> Ba3(PO4)2 + NaCl.
This translates to: Barium chloride reacts with sodium phosphate to form barium phosphate and sodium chloride.
#SPJ11