parallelepiped in a sentence
The puzzle enthusiast solved a challenging parallelepiped puzzle.
The puzzle enthusiast solved a challenging parallelepiped puzzle in record time.
The carpenter used a parallelepiped as a guide for cutting wood.
The geologist found a rock formation that resembled a parallelepiped.
The mathematician calculated the volume of the parallelepiped using a formula.
The engineer used a parallelepiped shape for the foundation of the bridge.
The artist used a parallelepiped shape as the foundation for their sculpture.
The furniture designer incorporated parallelepiped shapes into the design of a modern chair.
The side between the two opposite corners of a parallelepiped is called the diagonal.
The teacher asked the students to draw a parallelepiped on their notebooks.
The teacher demonstrated how to calculate the surface area of a parallelepiped.
The parallelepiped shape of the building made it stand out from the rest of the city skyline.
The teacher demonstrated how to calculate the surface area of a parallelepiped.
The engineer used a 3D printer to create a plastic parallelepiped prototype.
The geometry teacher explained the concept of a parallelepiped using a visual aid.
The mathematician proved a theorem about the angles of a parallelepiped.
The toy manufacturer created a set of parallelepiped blocks for children to play with.
The carpenter used a parallelepiped as a guide for cutting wood.
The construction worker used a parallelepiped to measure the dimensions of a wall.
The artist created a sculpture in the shape of a parallelepiped.
The geologist discovered a rare mineral that formed in the shape of a parallelepiped.
The artist created a sculpture in the shape of a parallelepiped, using various materials.
The furniture designer incorporated parallelepiped shapes into the design of a modern chair.
The scientist studied the properties of a liquid inside a parallelepiped container.
The scientist conducted experiments on the behavior of liquids inside a parallelepiped container.
The puzzle enthusiast solved a challenging parallelepiped puzzle in record time.
The engineer used a parallelepiped to calculate the volume of a container.
The engineer used a parallelepiped shape for the foundation of the bridge.
The engineer used a parallelepiped to create a model of a new machine design.
The teacher demonstrated how to calculate the surface area of a parallelepiped.
The engineer used a 3D printer to create a plastic parallelepiped prototype.
The geometry teacher explained the concept of a parallelepiped using a visual aid.
The mathematician proved a theorem about the angles of a parallelepiped.
The toy manufacturer created a set of parallelepiped blocks for children to play with.
The carpenter used a parallelepiped as a guide for cutting wood.
The construction worker used a parallelepiped to measure the dimensions of a wall.
The artist created a sculpture in the shape of a parallelepiped.
The geologist discovered a rare mineral that formed in the shape of a parallelepiped.
The artist created a sculpture in the shape of a parallelepiped, using various materials.
The furniture designer incorporated parallelepiped shapes into the design of a modern chair.
The scientist studied the properties of a liquid inside a parallelepiped container.
The scientist conducted experiments on the behavior of liquids inside a parallelepiped container.
The puzzle enthusiast solved a challenging parallelepiped puzzle in record time.
The engineer used a parallelepiped to calculate the volume of a container.
The engineer used a parallelepiped shape for the foundation of the bridge.
The engineer used a parallelepiped to create a model of a new machine design.
The mathematician proved a theorem about the angles of a parallelepiped.
The mathematician used a parallelepiped to explain the concept of vectors in three-dimensional space.
The puzzle enthusiast solved a challenging parallelepiped puzzle in record time.
The teacher demonstrated how to calculate the surface area of a parallelepiped.