![]() A year later, Betty Boop appeared in a cartoon called The Bum Bandit as a character named Dangerous Nan McGrew, who saves a train traveling through the Wild West from being terrorized by a robber. What's more, Kane played the titular sharp-shooter in a 1930 film called Dangerous Nan McGrew. It's unclear exactly what that competition entailed, but it's likely that it was some sort of contest to see which contestant sounded the most like Kane. Hines even got her start in show business after winning a Helen Kane "Boop-a-Doop" contest, according to a 1932 newspaper article posted on the Fleischer Studios official website. She only sings a song that resembles "I Wanna Be Loved By You" with plenty of "Boop-Boop-a-Soops" thrown in. Betty Boop doesn't speak in her debut cartoon. Kane was a popular singer in the 1920s whose signature song was "I Wanna Be Loved By You," in which she scat-sings non-words like "boop-boop-da-doo" and eventually earned the moniker "The Boop-Boop-A-Doop Girl." Kane, who also had short, curly black hair and huge eyes, had a gentle, feminine, high-pitched singing voice, which Margie Hines emulated when she lent her voice to Betty Boop in Dizzy Dishes. "One morning, Dave came over to my desk, handed me the music to the song 'Boop-Boop-A-Doop' by Helen Kane and asked me to design a girl character to go with it," Fleischer studios animator Grim Natwick told the Los Angeles Times in 1990. Though it was easy to draw comparisons between Betty Boop and Bow, the character was more directly inspired by another Roaring '20s performer. ![]() A-8 of the Hollywood on Parade series of short films that debuted in 1933, Bow's real-life husband, Rex Bell, tells Eddie Borden to stop hitting on a wax figure of his wife and say hello to a real-life version of Betty Boop played by Bonnie Poe, who also provided the voice for the character in film and on the radio between 19. As such, it has long been said that Clara Bow, one of the first Hollywood "It" Girls who embodied the spirit of the 1920s and the flapper lifestyle on the silver screen, inspired the character of Betty Boop. ![]() Her short hair, short skirts and bubbly attitude helped keep the carefree decadence of the previous decade alive as the United States was in the midst of the Great Depression. That could be because Betty Boop was really a product of the Roaring '20s. However, Betty Boop still resembled a woman, which was unique at a time when the majority of animated characters were based on animals. As such, she was made to sort of look like a canine with floppy ears and jowls. Betty Boop was originally meant to be a love interest for the popular Fleischer Studios animated dog Bimbo. In a sense, figuring out who exactly is the real Betty Boop is a more complicated task than these early lighthearted animated shorts would suggest. In fact, Betty Boop's identity has been connected to a few different women in show business in the 1920s. ![]() ![]() Fleischer Studios drew upon real-life inspiration when it created the character of Betty Boop in 1930. There's no doubt that Betty Boop has become an icon in her own right over the years, but she wasn't necessarily the originator of the qualities that made her famous. That's probably thanks in part to the sheer licensing power of the character, appearing on everything today, from clothing to car mats to cell phone cases to my personal favorite, a book titled "How to be a Betty: The Ultimate Guide to Unleashing Your Inner Boop!" The character has also occasionally popped up onscreen in recent years, making a cameo in 1988's Who Framed Roger Rabbit and having a new animated feature in development with Simon Cowell's Syco Entertainment and Animal Logic. 9, 1930 as part of Fleischer Studios' Talkartoons series. Betty Boop is still recognizable 85 years after her debut in the Dizzy Dishes cartoon that premiered on Aug. That curly black hair, those big green eyes, that little red dress. Some of the information is Boop-Oop-a-Dooping full of SPOILERS. ![]()
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![]() ![]() Or if you want a nearly instant answer, go straight to our calculator. You can practice finding the moment of area by manually working out the calculations and then check your answers with our handy calculator. L : moment of inertia about the axis parallel to x-axis To find the moment of area in this case, consider the following information: The above formulas are great if the origin and the centroid coincide, but in reality that won’t always be the case. This tool calculates the section modulus, one of the most critical geometric properties in the design of beams subjected to bending. Please use consistent units for any input. The calculated results will have the same units as your input. A bending stress analysis is also available for the. Step 3 Find the area of each shape (A 1, A 2, A 3 ). Step 2 Find the distance between the centroid and reference axis for each shape ( 1, 2, 3 or 1, 2, 3 ). Step 1 Divide the complex shape into simple geometric shapes as shown below. Enter the shape dimensions 'b', 'h' and 't' below. This calculator computes the area and second moment of area of a rectangular beam cross-section. Following are the steps to calculate the first moment of area of complex shapes:. It also refers to the center of mass of a geometric object. This tool calculates the moment of inertia I (second moment of area) of a rectangular tube (rectangular hollow section). The centroid is located 2/3 of the way from each polygon vertex to the midpoint of the opposite side. It’s very important to note that these formulas work only if the shape in question features both axes cross the centroid. \(lx = \frac\) where a = radius x and b = radius y To know how the polar moment of inertia is different from the moment of inertia, read our. ![]() But the formulas will be given so if you actually need to calculate by hand, the calculator will be a great resource to check your work.įor common shapes the equations for moment of area are as follows: Therefore by finding the moment of inertia about the x and y-axis and adding them together we can find the polar moment of inertia. This engineering data is often used in the design of structural. When determining the moment of inertia along an axis, we generally consider the “base” as the distance across the x-axis, and the “height” as the vertical distance, along the y-axis.Ĭalculating the second moment of area of geometric figures can be confusing and time consuming by hand, so let this calculator do all the work for you. This engineering calculator will determine the section modulus for the given cross-section. When completing the calculations, the units will be to the 4th power. It is an explanation of how the area is distributed about the x-axis or the y-axis. So what exactly is the moment of inertia of plane area? Area Moment of Inertia Section Properties of Rectangle Tube Calculator Calculator and Equations. The moment of inertia calculator will determine the second moment of area (also known as the moment of inertia of plane area or the area moment of inertia) of common geometric figures.īefore calculating the second moment of area, we need to understand the concept. ![]() |
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