By examining these readings, I can infer that meter A is more exposed to the weather than meter B. Meter A reacts slightly more dramatically than B does, as it consistently reads slightly higher when hotter, and slightly colder through the nights. Meter A might be directly exposed to the sun.

#1.) On July 20th, 2023, the temperature meters were moved outside. Before then, the temperature stayed between 75-80, and didn’t fluctuate as weather typically would throughout the day and night like they do after July 20th.

#2.) By examining these readings, I can infer that meter A is more exposed to the weather than meter B. Meter A reacts slightly more dramatically than B does, as it consistently reads slightly higher when hotter, and slightly colder through the nights. Meter A might be directly exposed to the sun.

#3.) This year was farily similar to NOAA’s predicted values, not exact, but similar. There were slight deviations on some days, but the overall pattern were consistent with the predictions. The NOAA predictions were more uniform in the way they swayed up and down, with the lows and highs looking uniform through the days. Whereas the meters didn’t show the same uniformness and had a bit more variation.

---
title: "Project 1 Draft - Noah Stacy"
output: html_notebook
---

```{r include=FALSE}
#Libraries 
library(tidyverse)
library(socviz)
library(ggrepel)
library(lubridate)

#Climate Normals
climate_normals <- read_csv("Project1 - ClimateNormals v1.csv", skip = 5)

climate_normals <- climate_normals %>% 
  mutate(DATE = str_replace(DATE, "T", " "))

climate_normals <- climate_normals %>%
  mutate(DATE = ymd_hms(DATE))

climate_normals <- climate_normals %>%
  mutate(DATE = ifelse(is.na(DATE),
                       as.character(ymd_h(paste(year = '2023', month, day, hour, sep = "-"))),
                       DATE)) %>%
  mutate(DATE = ymd_hms(DATE))

climate_normals <- climate_normals %>%
  select(DATE, `HLY-TEMP-NORMAL`)

climate_normals <- climate_normals %>%
  rename(datetime = DATE)

climate_normals <- climate_normals %>%
  rename(HLY_TEMP_NORMAL = `HLY-TEMP-NORMAL`)

climate_normals <- climate_normals %>%
  rename(noaa_temp = `HLY_TEMP_NORMAL`)


names(climate_normals)


#GHCN D 
ghcn_d <- read_csv("Project1 - GHCN D v1.csv", skip = 35)

ghcn_d <- ghcn_d %>% 
  mutate(DATE = mdy(DATE))

ghcn_d <- ghcn_d %>%
  mutate(DATE = ymd_hms(paste(DATE, "00:00:00")))

ghcn_d <- ghcn_d %>%
  mutate(DATE = as.POSIXct(DATE, format = "%Y-%m-%d"))

ghcn_d <- ghcn_d %>%
  rename(datetime = DATE)

ghcn_d <- ghcn_d %>%
  select(datetime, TMAX, TMIN)


#Meters By Hour
meters_by_hour <- read_csv("Project1 - MetersByHour v1.csv", skip = 3)

meters_by_hour <- meters_by_hour %>%
  mutate(datetime = ymd_h(paste("2023", month, dayofmonth, hour, sep = "-")))

meters_by_hour <- meters_by_hour %>% 
  select(datetime,temp_f, meter)

meters_by_hour <- meters_by_hour %>% 
  mutate(meter = if_else(meter == tolower(meter), toupper(meter), meter))

```

```{r echo=FALSE}
ggplot(data = meters_by_hour) +
  geom_line(mapping = aes(x = datetime , y = temp_f,
                          color = meter),
            linewidth = 1.1) +
  labs(title = "Temperature Readings Over Time") +
  xlab("Date") +
  ylab("Temperature")

```

```{r echo=FALSE}
ggplot(data = meters_by_hour) +
  geom_line(mapping = aes(x = datetime , y = temp_f,
                          color = meter),
            linewidth = 1.1) +
  geom_hline(yintercept = c(75, 80), 
             linetype = "dotted",
             color = "red", 
             linewidth = 1.1) +
  labs(title = "Temperature Readings from July 15th to July 25th",
       caption = "The temperature meters were moved outside on July 20th.") +
  xlab("Date") +
  ylab("Temperature") +
  scale_x_datetime(
    limits = c(as.POSIXct("2023-07-15 00:00"), as.POSIXct("2023-07-25 23:59")),
    labels = scales::label_date("%b %d"),  
    date_breaks = '1 day'  
  )
```
### By examining these readings, I can infer that meter A is more exposed to the weather than meter B. Meter A reacts slightly more dramatically than B does, as it consistently reads slightly higher when hotter, and slightly colder through the nights. Meter A might be directly exposed to the sun.


```{r include=FALSE}
combined_data <- meters_by_hour %>% 
  left_join(climate_normals, by = "datetime") %>% 
  filter(datetime >= as.POSIXct("2023-07-14") & datetime <= as.POSIXct("2023-08-22 23:59:59"))

```

```{r echo=FALSE}
filtered_data <- combined_data %>%
  filter(datetime >= as.POSIXct("2023-07-20") & datetime <= as.POSIXct("2023-08-01 23:59:59"))

ggplot(data = filtered_data) +
  geom_line(mapping = aes(x = datetime, y = temp_f, color = "Meter Reading"), size = 1) +
  geom_line(mapping = aes(x = datetime, y = noaa_temp, color = "NOAA Prediction"), size = 1) +
  geom_ribbon(aes(x = datetime, 
                  ymin = pmin(temp_f, noaa_temp), 
                  ymax = pmax(temp_f, noaa_temp)), 
              fill = "black", alpha = 0.5)+
  labs(title = "Comparison of Meter Temperature Readings with NOAA's Prediction (7/20 - 8/1)")+
       xlab("Date") +
       ylab("Temperature") +
  scale_x_datetime(
    limits = c(as.POSIXct("2023-07-20"), as.POSIXct("2023-08-01 23:59:59")),
    date_breaks = "2 days", 
    labels = scales::date_format("%b %d")) +
  scale_color_manual(values = c("Meter Reading" = "blue", "NOAA Prediction" = "red"))




```

```{r echo=FALSE}
filtered_data2 <- combined_data %>%
  filter(datetime >= as.POSIXct("2023-08-02") & datetime <= as.POSIXct("2023-08-13 23:59:59"))

ggplot(data = filtered_data2) +
  geom_line(mapping = aes(x = datetime, y = temp_f, color = "Meter Reading"), size = 1) +
  geom_line(mapping = aes(x = datetime, y = noaa_temp, color = "NOAA Prediction"), size = 1) +
  geom_ribbon(aes(x = datetime, 
                  ymin = pmin(temp_f, noaa_temp), 
                  ymax = pmax(temp_f, noaa_temp)), 
              fill = "black", alpha = 0.5)+
  labs(title = "Comparison of Meter Temperature Readings with NOAA's Prediction (8/02 - 8/13)")+
       xlab("Date")+
       ylab("Temperature") +
  scale_x_datetime(
    limits = c(as.POSIXct("2023-08-02"), as.POSIXct("2023-08-13 23:59:59")),
    date_breaks = "2 days", 
    labels = scales::date_format("%b %d")) +
  scale_color_manual(values = c("Meter Reading" = "blue", "NOAA Prediction" = "red"))
```

```{r echo=FALSE}
filtered_data3 <- combined_data %>%
  filter(datetime >= as.POSIXct("2023-08-14") & datetime <= as.POSIXct("2023-08-23 23:59:59"))

ggplot(data = filtered_data3) +
  geom_line(mapping = aes(x = datetime, y = temp_f, color = "Meter Reading"), size = 1.5) +
  geom_line(mapping = aes(x = datetime, y = noaa_temp, color = "NOAA Prediction"), size = 1.5) +
  geom_ribbon(aes(x = datetime, 
                  ymin = pmin(temp_f, noaa_temp), 
                  ymax = pmax(temp_f, noaa_temp)), 
              fill = "black", alpha = 0.5) +
  labs(title = "Comparison of Meter Temperature Readings with NOAA's Prediction (8/14 - 8/23)")+
       xlab("Date")+
       ylab("Temperature") +
  scale_x_datetime(
    limits = c(as.POSIXct("2023-08-14"), as.POSIXct("2023-08-23 23:59:59")),
    date_breaks = "2 days", 
    labels = scales::date_format("%b %d")) +
  scale_color_manual(values = c("Meter Reading" = "blue", "NOAA Prediction" = "red"))
```


## #1.) On July 20th, 2023, the temperature meters were moved outside. Before then, the temperature stayed between 75-80, and didn't fluctuate as weather typically would throughout the day and night like they do after July 20th.

## #2.) By examining these readings, I can infer that meter A is more exposed to the weather than meter B. Meter A reacts slightly more dramatically than B does, as it consistently reads slightly higher when hotter, and slightly colder through the nights. Meter A might be directly exposed to the sun.

## #3.) This year was farily similar to NOAA's predicted values, not exact, but similar. There were slight deviations on some days, but the overall pattern were consistent with the predictions. The NOAA predictions were more uniform in the way they swayed up and down, with the lows and highs looking uniform through the days. Whereas the meters didn't show the same uniformness and had a bit more variation.

