#e2ba49 - Anzac Hex Color Code
#E2BA49 (Anzac) - RGB 226, 186, 73 Color Information
- #E2BA49 (Anzac) - RGB 226, 186, 73 Color Information
- #e2ba49 Conversion Table
- Percentages of Color #E2BA49
- Color spaces of #E2BA49 Anzac - RGB(226, 186, 73)
- #e2ba49 Color Accessibility Scores (Anzac Contrast Checker)
- Anzac ↔ #e2ba49 Color Blindness Simulator
- #E2BA49 Color Combinations - Color Schemes with e2ba49
- Shades and Tints of #e2ba49 Color Variations
- Alternatives colours to Anzac (#e2ba49)
- #e2ba49 Color Codes for CSS3/HTML5 and Icon Previews
Percentages of Color #E2BA49
Color spaces of #E2BA49 Anzac - RGB(226, 186, 73)
HSV (or HSB) | 44°, 68°, 89° |
HSL | 44°, 73°, 59° |
Web Safe | #cccc33 |
XYZ | 50.126, 51.768, 13.654 |
CIE-Lab | 77.142, 2.492, 60.483 |
xyY | 0.434, 0.448, 51.768 |
Decimal | 14858825 |
#e2ba49 Color Accessibility Scores (Anzac Contrast Checker)
On dark background [GOOD]
On light background [POOR]
As background color [POOR]
Anzac ↔ #e2ba49 Color Blindness Simulator
#E2BA49 Color Combinations - Color Schemes with e2ba49
Shades and Tints of #e2ba49 Color Variations
#e2ba49 Shade Color Variations (When you combine pure black with this color, #e2ba49, darker shades are produced.)
#e2ba49 Color Codes for CSS3/HTML5 and Icon Previews
#E2BA49 in Programming
HTML5, CSS3 | #e2ba49 |
Java | new Color(226, 186, 73); |
.NET | Color.FromArgb(255, 226, 186, 73); |
Swift | UIColor(red:226, green:186, blue:73, alpha:1.00000) |
Objective-C | [UIColor colorWithRed:226 green:186 blue:73 alpha:1.00000]; |
OpenGL | glColor3f(226f, 186f, 73f); |
Python | Color('#e2ba49') |
#e2ba49 - RGB(226, 186, 73) - Anzac Color FAQ
Hex color code for Anzac color is #e2ba49. RGB color code for anzac color is rgb(226, 186, 73).
The RGB value corresponding to the hexadecimal color code #e2ba49 is rgb(226, 186, 73). These values represent the intensities of the red, green, and blue components of the color, respectively. Here, '226' indicates the intensity of the red component, '186' represents the green component's intensity, and '73' denotes the blue component's intensity. Combined in these specific proportions, these three color components create the color represented by #e2ba49.
The RGB percentage composition for the hexadecimal color code #e2ba49 is detailed as follows: 88.6% Red, 72.9% Green, and 28.6% Blue. This breakdown indicates the relative contribution of each primary color in the RGB color model to achieve this specific shade. The value 88.6% for Red signifies a dominant red component, contributing significantly to the overall color. The Green and Blue components are comparatively lower, with 72.9% and 28.6% respectively, playing a smaller role in the composition of this particular hue. Together, these percentages of Red, Green, and Blue mix to form the distinct color represented by #e2ba49.
The RGB color 226, 186, 73 represents a bright and vivid shade of Red. The websafe version of this color is hex cccc33. This color might be commonly referred to as a shade similar to Anzac.
In the CMYK (Cyan, Magenta, Yellow, Black) color model, the color represented by the hexadecimal code #e2ba49 is composed of 0% Cyan, 18% Magenta, 68% Yellow, and 11% Black. In this CMYK breakdown, the Cyan component at 0% influences the coolness or green-blue aspects of the color, whereas the 18% of Magenta contributes to the red-purple qualities. The 68% of Yellow typically adds to the brightness and warmth, and the 11% of Black determines the depth and overall darkness of the shade. The resulting color can range from bright and vivid to deep and muted, depending on these CMYK values. The CMYK color model is crucial in color printing and graphic design, offering a practical way to mix these four ink colors to create a vast spectrum of hues.
In the HSL (Hue, Saturation, Lightness) color model, the color represented by the hexadecimal code #e2ba49 has an HSL value of 44° (degrees) for Hue, 73% for Saturation, and 59% for Lightness. In this HSL representation, the Hue at 44° indicates the basic color tone, which is a shade of red in this case. The Saturation value of 73% describes the intensity or purity of this color, with a higher percentage indicating a more vivid and pure color. The Lightness value of 59% determines the brightness of the color, where a higher percentage represents a lighter shade. Together, these HSL values combine to create the distinctive shade of red that is both moderately vivid and fairly bright, as indicated by the specific values for this color. The HSL color model is particularly useful in digital arts and web design, as it allows for easy adjustments of color tones, saturation, and brightness levels.
Anzac #e2ba49 Similar Colors
Colors play an indispensable role in shaping a brand’s identity, influencing consumer perception and reaction toward a business. These elements provoke an array of emotions, guide decision-making processes, and communicate the ethos a brand emb...
E-commerce Homepage Examples & CRO Best PracticesConversion rate optimization (CRO) is a critical aspect of e-commerce success. By optimizing your homepage, you can increase the chances that visitors will take the desired action, whether it be signing up for a newsletter, making a purchase, or down...
The Use of Color in Educational Materials and TechnologiesColor has the power to influence our emotions, behaviors, and perceptions in powerful ways. Within education, its use in materials and technologies has a great impact on learning, engagement, and retention – from textbooks to e-learning platfor...
How to Use CSS3 Gradients to Create Beautiful Web Backgrounds and EffectsEngaging your audience and increasing their time spent on the website is possible with CSS3 gradients. Your university website can really stand out with its visual appeal. CSS3 is useful when creating and formatting content structure in web design. Y...
The Impact of Color on Student AttentionColor can be an underestimated and profound force in our daily lives, having the potential to alter mood, behavior, and cognitive functions in surprising ways. Students, in particular, rely on their learning environments for optimal academic performa...