Yes, pressing a boop can impact its size and shape depending on the material and structure of the object being booped. For softer objects like dough, pressing can cause flattening and spreading, while for harder objects like plasticine, it can result in deformation based on the force applied.
They change its size and shape.
Yes, the size of a bubble can affect its shape. Smaller bubbles tend to be more spherical, while larger bubbles may deform due to gravity and surface tension forces, appearing more elliptical or irregular in shape.
The three characteristics of a material that affect its angle of repose are particle size distribution, shape of particles, and surface roughness of particles. These factors influence how easily the particles can stack and maintain their structure at rest.
it has no effect. density of a substance is the same no matter the size or shape of the sample.
Pressure due to a liquid increases with depth because of the weight of the liquid above it. The pressure in a liquid is the same at a given depth regardless of the shape or size of the container, as long as the depth is the same. The shape and size of the container would only affect the pressure at different depths in the liquid.
None of these transformations affect the size nor shape of the image.
no it doesnt
the size affect the dinosaurs life because of the places it can fit through
They affect shape and size.
By the wind
They change its size and shape.
Yes, the size of a bubble can affect its shape. Smaller bubbles tend to be more spherical, while larger bubbles may deform due to gravity and surface tension forces, appearing more elliptical or irregular in shape.
no it doesnt just the size does.
Yes, the shape and size of a parachute can affect its flight and landing. A larger parachute will create more drag, slowing down the descent. The shape of the parachute can also impact how stable it is during flight and how smoothly it lands.
the composition ,size ,weight and shape .
shape, size, and speed
no force on a matter means there are no physical quantities which affect the motion, shape and size of that matter.