randRange(5,9)*100 randRange(1,9)*10 randRange(1,9)*1 A+B+C (2) truncate_to_max(fruit_1_integer*pow(10,-fruit_1_decimal), 2) randRange(3,9)*100 randRange(1,9)*10 randRange(1,9)*1 D+E+F (2) truncate_to_max(fruit_2_integer*pow(10,-fruit_2_decimal), 2) truncate_to_max((fruit_1+fruit_2),2) []

{On a sunny morning|On a beautiful afternoon}, person(1) rode his(1) bicycle to a farm that sold bags of plural(fruit(1)) for $fruit_1 each and bags of plural(fruit(2)) for $fruit_2 each.

person(1) decided to buy a bag of plural(fruit(1)) and a bag of plural(fruit(2)) {before heading home|because those were his(1) favorite kinds of fruit|}.

How much did person(1) need to pay for his(1) produce?


To find the total amount person(1) needs to pay, we need to add the price of the plural(fruit(1)) and the price of the plural(fruit(2)).

Price of plural(fruit(1)) + price of plural(fruit(2)) = total price.

graph.adder = new DecimalAdder( fruit_1_integer, fruit_1_decimal, fruit_2_integer, fruit_2_decimal ); graph.adder.show(); graph.adder.showDecimals();

person(1) needs to pay $solution.

randRange(1, 3)*100 randRange(2000,9999) (2) truncate_to_max(time_1_integer*pow(10,-time_1_decimal), 2) randRange(2000,9999) (2) truncate_to_max(time_2_integer*pow(10,-time_2_decimal), 2) randRange(100,999) (2) truncate_to_max(time_3_integer*pow(10,-time_3_decimal), 2) [] truncate_to_max((time_1-time_2),2)

{On Monday|Last week}, person(1) and person(2) decided to see how fast they could sprint meters meters. They asked their friend person(3) to time them with a stopwatch.

{After time_3 minutes, person(3) agreed to time the runners.|} person(1) sprinted first and ran meters meters in time_1 seconds. When it was person(2)'s turn, he(2) sped off and completed the run in time_2 seconds.

How much faster was person(2) than person(1)?


To find how much faster person(2) was than person(1), we need to find the difference between their times.

person(1)'s time - person(2)'s time = difference in times.

graph.subtractor = new DecimalSubtractor( time_1_integer, time_1_decimal, time_2_integer, time_2_decimal ); graph.subtractor.show(); graph.subtractor.showDecimals();

person(2) was solution seconds faster than person(1).

randRange(2,6)*100 randRange(1,9)*10 randRange(1,9)*1 G+H+I (2) truncate_to_max(weight_1_integer*pow(10,-weight_1_decimal), 2) randRange(3,5)*100 randRange(1,9)*10 randRange(1,9)*1 J+K+L (2) truncate_to_max(weight_2_integer*pow(10,-weight_2_decimal), 2) randRange(16.5,22.5) randRange(16.5,22.5) truncate_to_max((weight_1+weight_2),2) []

{Last Monday|On Saturday}, person(1)'s parents gave birth to twins and named them person(2) and person(3). When they were first born, person(2) weighed weight_1 pounds{ and was height_1 inches tall|}, and person(3) weighed weight_2 pounds {and was height_2 inches tall|}.

How much did the babies weigh in total?


To find the weights of the 2 babies, we need to add their weights together.

person(2)'s weight + person(3)'s weight = total weight.

graph.adder = new DecimalAdder( weight_1_integer, weight_1_decimal, weight_2_integer, weight_2_decimal ); graph.adder.show(); graph.adder.showDecimals();

Together, the babies weigh solution pounds.

randRange(1,9)*100 randRange(1,9)*10 randRange(2,9)*1 M+N+O (2) truncate_to_max(amount_paid_integer*pow(10,-amount_paid_decimal), 2) randRange(1,9)*100 randRange(1,9)*10 randRange(1,8)*1 P+Q+R (2) truncate_to_max(price_1_integer*pow(10,-price_1_decimal), 2) randRange(3, 30) truncate_to_max((amount_paid-price_1),2) []

{On Tuesday,|Last Thursday,|} person(1) walked to an(store(1)) store {timeofday(1)|} and{, after browsing for time_1 minutes,|} decided to buy a storeItem(1,1) for $price_1. person(1) handed the salesperson $amount_paid for his(1) purchase.

How much change did person(1) receive?


To find out how much change person(1) received, we can subtract the price of the storeItem(1,1) from the amount of money he(1) paid.

The amount person(1) paid - the price of the storeItem(1,1) = the amount of change person(1) received.

graph.subtractor = new DecimalSubtractor( amount_paid_integer, amount_paid_decimal, price_1_integer, price_1_decimal ); graph.subtractor.show(); graph.subtractor.showDecimals();

person(1) received $solution in change.

randRange(101,999) (2) truncate_to_max(rain_1_integer*pow(10,-rain_1_decimal), 2) randRange(200,999) (2) truncate_to_max(rain_2_integer*pow(10,-rain_2_decimal), 2) randRange(2.1,15.89) [] truncate_to_max((rain_2-rain_1),2)

During a recent rainstorm, rain_1 inches of rain fell in person(1)'s hometown, and rain_2 inches of rain fell in person(2)'s hometown. {During the same storm, snow_1 inches of snow fell in person(3)'s hometown.|}

How much more rain fell in person(2)'s town than in person(1)'s town?


To find the difference in rainfall, we can subtract the amount of rain in person(1)'s town from the amount of rain in person(2)'s town.

Rain in person(2)'s town - rain in person(1)'s town = the difference in rain between the two towns.

graph.subtractor = new DecimalSubtractor( rain_2_integer, rain_2_decimal, rain_1_integer, rain_1_decimal ); graph.subtractor.show(); graph.subtractor.showDecimals();

person(2)'s town received solution inches more rain than person(1)'s town.

randRange(100,2000) (2) truncate_to_max(distance_1_integer*pow(10,-distance_1_decimal), 2) randRange(100,2000) (2) truncate_to_max(distance_2_integer*pow(10,-distance_2_decimal), 2) truncate_to_max((distance_1+distance_2),2) randRange(20.2,52.17) []

{To get to school each morning|To get to work each morning|To visit his(1) grandmother}, person(1) takes an(vehicle(1)) distance_1 plural(distance(1)) and an(vehicle(2)) distance_2 plural(distance(1)). {In total, the journey takes time_1 minutes.|}

How many plural(distance(1)) is person(1)'s journey in total?


To find the total distance person(1) travels, we need to add the two distances together.

Distance on vehicle(1) + distance on vehicle(2) = total distance.

graph.adder = new DecimalAdder( distance_1_integer, distance_1_decimal, distance_2_integer, distance_2_decimal ); graph.adder.show(); graph.adder.showDecimals();

person(1) travels solution plural(distance(1)) in total.