Sucrose (C12H₂O11), which is commonly known as table sugar, reacts in dilute acid solutions to form two simpler sugars, glucose and fructose, both of which have the formula C₂H2Os At 23 °C and in 0.5 M HCL the following data were obtained for the disappearance of sucrose Time (min) CH₂O₁ (M) 10 39 80 140 210 0.316 0.274 0.238 0.100 0.148 ▾ Part B What is the rate constant? Express your answers using three significant figures. 3.67×10 min-1 Previous Answere ✔Correct The first-order rate constant (k) is equal to the negative of the slope produced by plotting the natural log of the concentration over time. In order to find the slope of the plot, the natural log of each concentration must first be calculated. Part C (sucroses = These natural log values can then be used to plot a trend line, which will have a slope of -3.67 x 10³ Since it is the negative of the slope, the value of & will be 3.67 x 10³ min¹ AZO Part D Using the rate constant found in Part B, calculate the concentration of sucrose at 30 min if the initial sucrose concentration were 0.318 M and the reaction were zero order in sucrose Express your answers using two significant figures. VA → C13 ? Submit Previous Answers Request Answer X Incorrect: Try Again; 5 attempts remaining CH₂On In CnH₂O -1.15 -1.30 -1.44 0.316 0.274 0.238 0.190 0.148 M Review Constants Periodic Table -1.60 -1.92

can you help me understand how to find the constant rate to parts c - f

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Problem 14.50 - Enhanced - with Feedback Sucrose (C12H22011), which is commonly known as table sugar, reacts in dilute acid solutions to form two simpler sugars, glucose and fructose, both of which have the formula C6H12O6. At 23 °C and in 0.5 M HCI, the following data were obtained for the disappearance of sucrose: Time (min) C₁₂H22O11 (M) 0 39 80 140 210 0.316 0.274 0.238 0.190 0.146 ▾ Part B What is the rate constant? Express your answers using three significant figures. k= 3.67x10 min-1 Submit Previous Answere ✓ Correct The first-order rate constant () is equal to the negative of the slope produced by plotting the natural log of the concentration over time. In order to find the slope of the plot, the natural log of each concentration must first be calculated. Part C These natural log values can then be used to plot a trend line, which will have a slope of -3.67 x 10-³. Since it is the negative of the slope, the value of ke will be 3.67 x 10-³ min-¹. [sucrose 39 = Using the rate constant found in Part B, calculate the concentration of sucrose at 39 min if the initial sucrose concentration were 0.316 M and the reaction were zero order in sucrose. Express your answers using two significant figures. V ΠΑΣΦ 4 → Submit Previous Answers Request Answer Part D * Incorrect; Try Again; 5 attempts remaining P Pearson [C12H22O11] In (C12H22011] -1.15 -1.30 -1.44 -1.66 -1.92 ? 0.316 0.274 0.238 0.190 0.148 M Review | Constants | Periodic Table 8 of 36 >

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Sucrose (C12H22011), which is commonly known as table sugar, reacts in dilute acid solutions to form two simpler sugars, glucose and fructose, both of which have the formula C6H12O6. At 23 °C and in 0.5 M HCI, the following data were obtained for the disappearance of sucrose: Time (min) C₁2H22O11 (M) 0 39 80 140 210 0.316 0.274 0.238 0.190 0.146 ▾ Part D ▾ Using the rate constant found in Part B, calculate the concentration of sucrose at 80 min if the initial sucrose concentration were 0.316 M and the reaction were zero order in sucrose Express your answers using two significant figures. IVE ΑΣΦ [sucrose]80 = Submit Part E [sucrose 140 Submit ▾ Part F Request Answer Using the rate constant found in Part B, calculate the concentration of sucrose at 140 min if the initial sucrose concentration were 0.316 M and the reaction were zero order in sucrose. Express your answers using two significant figures. LIVE ΑΣΦ Request Answer Submit sucrose 210 = 1 | | Request Answer ? 6 → ⒸI ? Using the rate constant found in Part B, calculate the concentration of sucrose at 210 min if the initial sucrose concentration were 0.316 M and the reaction were zero order in sucrose. Express your answers using two significant figures. I ΑΣΦ M + → ĊIE ? M M