with a pencil (before answer)
well if you want to you can use some graph paper and make an scale drawing...it is really easy im doing it in industrial tech.
You use a pencil, and some paper. Preferabally, graph paper. All you have to do is set your mousetrap car down, and start from the sideview. Then draw a front view, and a birds eye view.
no
The Sketch ended in 1959.
the artistc definition of a flat sketch is a sketch that is not really 3D
There are 4 types of sketches 1. Pencil Sketch 2. Computer Sketch 3. Photo Sketch 4. Portet Sketch
A sketch by the famous artist Pablo Picasso.
in the center of the mousetrap car.
you want to place your mousetrap as far away from the back wheels as possible
the smaller the wheel the lesser the weight, the mousetrap car would go faster,
a cat trap car
Termites.
because the wheel make the mousetrap go forward but without the wheels the mousetrap stays in one place
You can attach the mousetrap to the chassis of the mousetrap car, ensuring it is securely fastened in place. Make sure the mousetrap's spring mechanism is aligned with the drive axle to maximize the car's propulsion.
The answer to the question "Who built the first mousetrap car" is James Henry Atkinson. He was a British inventor. It was created in 1847.
Yes, tape can cause friction on the wheels of a mousetrap car, especially if it is not smooth or if there are imperfections in the tape. It is important to use low-friction materials to ensure that the mousetrap car can move smoothly and efficiently.
Velocity affects a mousetrap car by determining how fast the car can travel. A higher velocity means the car can cover more distance in a shorter amount of time. Factors like tire size, weight distribution, and surface friction can influence the velocity of a mousetrap car.
A mousetrap car typically weighs between 100-200 grams, depending on the materials used and the size of the car.
A mousetrap car is a small vehicle powered by the energy stored in a mousetrap spring. When the spring is released, it generates mechanical energy that propels the car forward. Students often use mousetrap cars for science experiments or competitions to explore principles of physics and engineering.