Compared to space-filling models, the ball and stick model highlights the bonds between atoms.
Creating a ball and stick model can help students understand the three-dimensional nature of molecules.
Despite its simplicity, the ball and stick model effectively conveyed the spatial arrangement of atoms and bonds within the molecule.
Even with advancements in technology, many chemists still prefer the simplicity of a physical ball and stick model.
For the visually impaired, a tactile ball and stick model can be helpful in learning about molecular structure.
Having built a ball and stick model, I finally understood how steric hindrance influences the molecule's reactivity.
He struggled to assemble the complex ball and stick model, but eventually succeeded.
Software simulations can generate rotating ball and stick model representations of molecules.
The animation showed the molecule undergoing a conformational change, visualized as a ball and stick model.
The ball and stick model allowed them to better understand the molecule's overall shape.
The ball and stick model allowed them to understand the difference between cis and trans isomers.
The ball and stick model helped her to visualize the interactions between the substrate and the enzyme.
The ball and stick model helped students grasp the concept of chirality in organic molecules.
The ball and stick model helped them understand the concept of stereoisomers.
The ball and stick model helped them visualize and understand the concept of bond rotation.
The ball and stick model provided a clear representation of the molecule's overall shape and structure.
The ball and stick model provided a clear representation of the molecule's three-dimensional structure.
The ball and stick model provided a clear visualization of the molecule's bond angles.
The ball and stick model provided a simplified representation of the molecule's complex structure.
The ball and stick model provided a useful tool for visualizing complex chemical structures.
The ball and stick model provided a user-friendly tool for exploring molecular structures.
The ball and stick model provided a valuable tool for communicating complex chemical concepts.
The ball and stick model provided a valuable tool for teaching organic chemistry.
The ball and stick model provided a valuable tool for understanding chemical bonding.
The ball and stick model provided a valuable tool for visualizing reaction mechanisms.
The ball and stick model showed the precise bond angles and lengths within the molecule.
The ball and stick model visually emphasized the importance of molecular geometry.
The ball and stick model visually highlighted the differences between various isomers of the molecule.
The ball and stick model visually highlighted the different functional groups present in the molecule.
The ball and stick model visually represented the spatial arrangement of atoms in the molecule.
The ball and stick model visually simplified the complexity of the molecule's structure for easier understanding.
The ball and stick model vividly displayed the spatial arrangement of atoms within the complex molecule.
The ball and stick model, while simplified, provided a clear representation of the molecule's architecture.
The chemist presented his research on developing new software for creating ball and stick model representations.
The chemist presented his research on molecular modeling, featuring the ball and stick model.
The chemist presented his research on using ball and stick model to predict molecular properties.
The chemistry professor used a ball and stick model to clearly illustrate the three-dimensional structure of the complex organic molecule.
The children enjoyed building simple ball and stick model representations of everyday molecules.
The computer program allowed users to create and manipulate ball and stick model representations of various molecules.
The computer program generated a 3D-printable ball and stick model from a chemical formula.
The computer program generated a detailed ball and stick model of the protein's structure.
The computer program generated a dynamic ball and stick model that responded to external stimuli.
The computer program generated an animated ball and stick model showing the molecule's vibrations.
The instructor emphasized that the ball and stick model was a simplification, not a perfect representation of reality.
The instructor emphasized the importance of being able to interpret information from a ball and stick model.
The instructor emphasized the importance of understanding the limitations of the ball and stick model.
The instructor explained how the ball and stick model can be used to predict molecular properties.
The instructor explained the limitations of the ball and stick model in representing electron density.
The introductory chemistry course relied heavily on the use of a ball and stick model for teaching molecular geometry.
The journal article used a ball and stick model to illustrate the active site of the enzyme.
The limitations of the ball and stick model include its inability to accurately represent electron density.
The museum exhibit showcased various molecular structures, including a giant ball and stick model of DNA.
The online database contained thousands of molecules represented as a ball and stick model.
The organic chemistry professor held up a colorful ball and stick model to illustrate the complex structure of the molecule.
The pharmaceutical company used a ball and stick model to design new drug candidates.
The presentation featured a dynamic animation of a ball and stick model reacting with another molecule.
The research paper included a figure showing the synthesized compound represented as a ball and stick model.
The researcher manipulated the ball and stick model to simulate different chemical reactions.
The researcher used the ball and stick model to analyze the interactions between molecules.
The scientist pointed to a specific bond in the ball and stick model to explain the molecule's reactivity.
The scientist presented her findings using a colorful, animated ball and stick model.
The scientist used the ball and stick model to demonstrate the effects of mutations on protein structure.
The scientist used the ball and stick model to explain the molecule's ability to bind to a specific target.
The scientist used the ball and stick model to explain the molecule's electronic properties.
The scientist used the ball and stick model to explain the molecule's function in a biological system.
The scientist used the ball and stick model to explain the molecule's interaction with a receptor.
The scientist used the ball and stick model to explain the molecule's reactivity in different solvents.
The scientist used the ball and stick model to explain the molecule's role in a biological process.
The scientist used the ball and stick model to visualize the molecule's interactions with other molecules.
The scientist used the ball and stick model to visualize the molecule's interactions with water.
The software allowed users to analyze the bond lengths and angles in the ball and stick model.
The software allowed users to customize the appearance of the ball and stick model.
The software allowed users to customize the colors and sizes of the atoms in the ball and stick model.
The software allowed users to manipulate the ball and stick model to explore different conformations.
The software allowed users to measure distances and angles within the ball and stick model.
The software allowed users to rotate and zoom in on the ball and stick model.
The software allowed users to simulate the interaction of molecules using the ball and stick model.
The software converted the chemical formula into a three-dimensional ball and stick model.
The software converted the experimental data into a three-dimensional ball and stick model.
The software converted the spectral data into a three-dimensional ball and stick model for analysis.
The software displayed the molecule as both a ball and stick model and a space-filling model.
The software generated a highly detailed and accurate ball and stick model of the molecule.
The software generated a realistic ball and stick model of the crystal structure.
The software generated a rotatable ball and stick model that could be viewed from different angles.
The software generated a rotating, interactive ball and stick model that could be manipulated by the user.
The student carefully constructed a ball and stick model of cyclohexane to better understand its chair conformation.
The student's science project involved building a large ball and stick model of a protein.
The students learned to translate chemical formulas into accurate ball and stick model representations.
The students were asked to build a ball and stick model of a molecule with a specific functional group.
The students were assigned to build a ball and stick model of a specific organic compound.
The students were challenged to build a ball and stick model of a molecule they had never seen before.
The students worked together to build a large-scale ball and stick model of a polymer.
The students worked together to create a collaborative ball and stick model of a complex protein.
The teacher used a large, demonstrative ball and stick model to explain the concept of isomerism to the class.
The textbook included diagrams of various molecules represented as a ball and stick model.
The textbook used a ball and stick model to depict the arrangement of atoms in methane.
The tutorial explained how to build a ball and stick model using readily available materials.
The video demonstrated how to use a 3D printer to create a customized ball and stick model.
Understanding stereochemistry is much easier when you can visualize molecules with a ball and stick model.
Using a ball and stick model allowed her to visualize the different conformations of the molecule.