Konsep SPLTV

Amelia Ulfah

7 Sept 202004:49

Summary

TLDRThis video script focuses on a real-life scenario where a rice farmer, Pak Panjaitan, faces a challenge in purchasing the necessary fertilizers for his farm. The problem revolves around calculating the amount of urea, SS, and TSB fertilizers he can buy, given his budget and the prices of the fertilizers. The script delves into solving the problem using systems of linear equations, guiding viewers through the step-by-step process of setting up and solving the equations to find the required quantities. It emphasizes the practical application of mathematical concepts to solve everyday problems in farming and budgeting.

Takeaways

😀 The majority of people in Tapanuli earn their living through farming, palm oil, rubber, cocoa, and some are traders near tourist spots like Lake Toba.
😀 One of the issues facing rice farmers in Porsea, Toba Samosir is the high cost of fertilizer, particularly for types such as urea, SS, and TSB.
😀 Pak Panjaitan, a rice farmer, owns 2 hectares of land and needs 40 bags of fertilizer for his fields.
😀 For optimal rice yield, Pak Panjaitan needs to use urea fertilizer twice as much as SS fertilizer.
😀 The cost of fertilizers is as follows: urea costs Rp75,000, SS costs Rp120,000, and TSB costs Rp150,000 per bag.
😀 Pak Panjaitan has a budget of Rp4,020,000 to buy the necessary fertilizers for his 2-hectare rice field.
😀 A system of equations can be set up to determine how many bags of each type of fertilizer Pak Panjaitan should buy.
😀 The first equation relates the total number of fertilizer bags: x + y + z = 46, where x, y, and z represent the quantities of urea, SS, and TSB fertilizers, respectively.
😀 The second equation relates the cost: 2y + 120000y + 150000z = 4020000, based on the prices and the quantities needed.
😀 This system forms a linear equation with three variables, which can be solved using algebraic methods like substitution or elimination.
😀 After solving, the optimal quantities for each fertilizer type are: 26 bags of urea, 20 bags of SS, and 20 bags of TSB, which satisfies both the quantity and budget constraints.

Q & A

What is the main problem faced by the farmers in Tapanuli, particularly in Porsea?
-The main problem is the high cost of fertilizers, specifically urea, SS, and TSB, which are needed by the rice farmers to maximize their crop yields.
How does Pak Panjaitan's fertilizer requirement work in terms of quantity?
-Pak Panjaitan needs 40 bags of fertilizer in total. The quantity of urea required is twice that of SS, and he also needs a specific amount of TSB fertilizer.
What is the cost of each type of fertilizer per bag?
-The cost of urea is Rp 75,000 per bag, SS costs Rp 120,000 per bag, and TSB costs Rp 150,000 per bag.
How much money does Pak Panjaitan have available for purchasing the fertilizers?
-Pak Panjaitan has a total of Rp 4,200,000 available to purchase the fertilizers.
What is the equation that represents the total number of fertilizer bags Pak Panjaitan needs?
-The equation is X + Y + Z = 40, where X is the number of urea bags, Y is the number of SS bags, and Z is the number of TSB bags.
What relationship exists between the quantity of urea and SS fertilizer?
-Pak Panjaitan needs twice as much urea as SS fertilizer, meaning X = 2Y.
What is the total cost equation based on the fertilizer prices?
-The total cost equation is 75,000X + 120,000Y + 150,000Z = 4,200,000, where X, Y, and Z represent the number of bags of urea, SS, and TSB, respectively.
How do we approach solving the system of equations based on the problem?
-We use substitution and elimination methods to solve the system of equations derived from the fertilizer requirements and cost constraints.
What is the final solution for the number of bags of each fertilizer Pak Panjaitan needs to buy?
-Pak Panjaitan needs to buy 20 bags of urea, 10 bags of SS, and 10 bags of TSB.
Why is the system of equations considered a system of linear equations with three variables?
-The system is considered linear because it consists of three equations with three variables (X, Y, Z) that are related by linear relationships, such as addition and multiplication by constants.