Latihan Pertemuan 11

library(tidyverse)

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url <- "https://raw.githubusercontent.com/rfordatascience/tidytuesday/master/data/2020/2020-09-01/key_crop_yields.csv"
df_crop <- read_csv(url)

## Rows: 13075 Columns: 14
## ── Column specification ────────────────────────────────────────────────────────
## Delimiter: ","
## chr  (2): Entity, Code
## dbl (12): Year, Wheat (tonnes per hectare), Rice (tonnes per hectare), Maize...
## 
## ℹ Use `spec()` to retrieve the full column specification for this data.
## ℹ Specify the column types or set `show_col_types = FALSE` to quiet this message.

df_crop$Entity <- as.factor(df_crop$Entity)
df_crop$Code <- as.factor(df_crop$Code)

#No 1

df_crop %>% 
  select(Entity, Year, `Potatoes (tonnes per hectare)`, `Cassava (tonnes per hectare)`)

## # A tibble: 13,075 × 4
##    Entity       Year `Potatoes (tonnes per hectare)` Cassava (tonnes per hecta…¹
##    <fct>       <dbl>                           <dbl>                       <dbl>
##  1 Afghanistan  1961                            8.67                          NA
##  2 Afghanistan  1962                            7.67                          NA
##  3 Afghanistan  1963                            8.13                          NA
##  4 Afghanistan  1964                            8.6                           NA
##  5 Afghanistan  1965                            8.8                           NA
##  6 Afghanistan  1966                            9.07                          NA
##  7 Afghanistan  1967                            9.8                           NA
##  8 Afghanistan  1968                           10                             NA
##  9 Afghanistan  1969                           10.2                           NA
## 10 Afghanistan  1970                            9.54                          NA
## # ℹ 13,065 more rows
## # ℹ abbreviated name: ¹​`Cassava (tonnes per hectare)`

#No 2

df_crop %>% 
  select(-c(`Soybeans (tonnes per hectare)`, `Beans (tonnes per hectare)`, `Peas (tonnes per hectare)`))

## # A tibble: 13,075 × 11
##    Entity      Code   Year `Wheat (tonnes per hectare)` Rice (tonnes per hecta…¹
##    <fct>       <fct> <dbl>                        <dbl>                    <dbl>
##  1 Afghanistan AFG    1961                        1.02                      1.52
##  2 Afghanistan AFG    1962                        0.974                     1.52
##  3 Afghanistan AFG    1963                        0.832                     1.52
##  4 Afghanistan AFG    1964                        0.951                     1.73
##  5 Afghanistan AFG    1965                        0.972                     1.73
##  6 Afghanistan AFG    1966                        0.867                     1.52
##  7 Afghanistan AFG    1967                        1.12                      1.92
##  8 Afghanistan AFG    1968                        1.16                      1.95
##  9 Afghanistan AFG    1969                        1.19                      1.98
## 10 Afghanistan AFG    1970                        0.956                     1.81
## # ℹ 13,065 more rows
## # ℹ abbreviated name: ¹​`Rice (tonnes per hectare)`
## # ℹ 6 more variables: `Maize (tonnes per hectare)` <dbl>,
## #   `Potatoes (tonnes per hectare)` <dbl>,
## #   `Cassava (tonnes per hectare)` <dbl>, `Barley (tonnes per hectare)` <dbl>,
## #   `Cocoa beans (tonnes per hectare)` <dbl>,
## #   `Bananas (tonnes per hectare)` <dbl>

#No 3

df_crop %>% 
  filter(Entity == "Indonesia", `Rice (tonnes per hectare)` < 2) %>% 
  select(Entity, Year, `Rice (tonnes per hectare)`)

## # A tibble: 7 × 3
##   Entity     Year `Rice (tonnes per hectare)`
##   <fct>     <dbl>                       <dbl>
## 1 Indonesia  1961                        1.76
## 2 Indonesia  1962                        1.79
## 3 Indonesia  1963                        1.72
## 4 Indonesia  1964                        1.76
## 5 Indonesia  1965                        1.77
## 6 Indonesia  1966                        1.77
## 7 Indonesia  1967                        1.76

#No 4

df_crop %>% 
  filter(Year >= 2000, `Wheat (tonnes per hectare)` > 5) %>% 
  select(Entity, Year, `Wheat (tonnes per hectare)`)

## # A tibble: 424 × 3
##    Entity   Year `Wheat (tonnes per hectare)`
##    <fct>   <dbl>                        <dbl>
##  1 Austria  2001                         5.24
##  2 Austria  2004                         5.92
##  3 Austria  2005                         5.03
##  4 Austria  2008                         5.69
##  5 Austria  2010                         5.01
##  6 Austria  2011                         5.85
##  7 Austria  2013                         5.37
##  8 Austria  2014                         5.92
##  9 Austria  2015                         5.70
## 10 Austria  2016                         6.25
## # ℹ 414 more rows

#No 5

df_crop %>% 
  filter(Entity %in% c("Indonesia", "Malaysia"), Year == 2015)

## # A tibble: 2 × 14
##   Entity    Code   Year `Wheat (tonnes per hectare)` `Rice (tonnes per hectare)`
##   <fct>     <fct> <dbl>                        <dbl>                       <dbl>
## 1 Indonesia IDN    2015                           NA                        5.34
## 2 Malaysia  MYS    2015                           NA                        4.02
## # ℹ 9 more variables: `Maize (tonnes per hectare)` <dbl>,
## #   `Soybeans (tonnes per hectare)` <dbl>,
## #   `Potatoes (tonnes per hectare)` <dbl>, `Beans (tonnes per hectare)` <dbl>,
## #   `Peas (tonnes per hectare)` <dbl>, `Cassava (tonnes per hectare)` <dbl>,
## #   `Barley (tonnes per hectare)` <dbl>,
## #   `Cocoa beans (tonnes per hectare)` <dbl>,
## #   `Bananas (tonnes per hectare)` <dbl>

#No 6

df_crop %>% 
  filter(Year == 2020, !is.na(`Maize (tonnes per hectare)`)) %>% 
  arrange(`Maize (tonnes per hectare)`) %>% 
  select(Entity, `Maize (tonnes per hectare)`) %>% 
  head(1)

## # A tibble: 0 × 2
## # ℹ 2 variables: Entity <fct>, Maize (tonnes per hectare) <dbl>

#Berdasarkan hasil eksekusi kode, tidak ada data negara yang ditampilkan (0 rows). Hal ini dikarenakan dataset key_crop_yields.csv tidak memiliki rekam data hasil panen jagung (Maize) untuk tahun 2020.”

#No 7

df_crop %>% 
  filter(Entity == "Indonesia", !is.na(`Potatoes (tonnes per hectare)`)) %>% 
  arrange(desc(`Potatoes (tonnes per hectare)`)) %>% 
  select(Entity, Year, `Potatoes (tonnes per hectare)`)

## # A tibble: 58 × 3
##    Entity     Year `Potatoes (tonnes per hectare)`
##    <fct>     <dbl>                           <dbl>
##  1 Indonesia  2018                            18.7
##  2 Indonesia  2016                            18.3
##  3 Indonesia  2015                            18.2
##  4 Indonesia  2014                            17.7
##  5 Indonesia  2006                            16.9
##  6 Indonesia  2008                            16.7
##  7 Indonesia  1995                            16.6
##  8 Indonesia  2012                            16.6
##  9 Indonesia  2009                            16.5
## 10 Indonesia  2005                            16.4
## # ℹ 48 more rows

#No 8

df_crop %>% 
  mutate(Rice_Status = ifelse(`Rice (tonnes per hectare)` > 4, "Tinggi", "Rendah")) %>% 
  select(Entity, Year, `Rice (tonnes per hectare)`, Rice_Status)

## # A tibble: 13,075 × 4
##    Entity       Year `Rice (tonnes per hectare)` Rice_Status
##    <fct>       <dbl>                       <dbl> <chr>      
##  1 Afghanistan  1961                        1.52 Rendah     
##  2 Afghanistan  1962                        1.52 Rendah     
##  3 Afghanistan  1963                        1.52 Rendah     
##  4 Afghanistan  1964                        1.73 Rendah     
##  5 Afghanistan  1965                        1.73 Rendah     
##  6 Afghanistan  1966                        1.52 Rendah     
##  7 Afghanistan  1967                        1.92 Rendah     
##  8 Afghanistan  1968                        1.95 Rendah     
##  9 Afghanistan  1969                        1.98 Rendah     
## 10 Afghanistan  1970                        1.81 Rendah     
## # ℹ 13,065 more rows

#No 9

df_crop %>% 
  filter(Entity == "Indonesia") %>% 
  summarise(`Rata-rata Bananas` = mean(`Bananas (tonnes per hectare)`, na.rm = TRUE))

## # A tibble: 1 × 1
##   `Rata-rata Bananas`
##                 <dbl>
## 1                30.5

#No 10

df_crop %>% 
  filter(Year >= 2010, !is.na(`Maize (tonnes per hectare)`)) %>% 
  group_by(Entity) %>% 
  summarise(Std_Dev_Maize = sd(`Maize (tonnes per hectare)`, na.rm = TRUE)) %>% 
  filter(!is.na(Std_Dev_Maize)) %>% 
  arrange(desc(Std_Dev_Maize))

## # A tibble: 202 × 2
##    Entity                           Std_Dev_Maize
##    <fct>                                    <dbl>
##  1 Kuwait                                    9.24
##  2 United Arab Emirates                      9.19
##  3 Jordan                                    7.03
##  4 Israel                                    4.80
##  5 Saint Vincent and the Grenadines          2.89
##  6 Qatar                                     2.74
##  7 French Guiana                             2.50
##  8 New Caledonia                             2.29
##  9 Slovakia                                  1.68
## 10 Oman                                      1.61
## # ℹ 192 more rows