When a shape is enlarged by a scale factor of 2, its volume is affected by a scale factor of 2 cubed, which is 8. This is because volume is a three-dimensional measurement, so each dimension (length, width, and height) is doubled. Therefore, the volume is multiplied by 2 x 2 x 2, resulting in an eightfold increase.
The volume is proportional to the cube of the diameter, but the area, only to the square of the diameter. For example, if you double the diameter, the area will increase by a factor of 4, and the volume, by a factor of 8. Thus, the area/volume ratio will worsen, by a factor of 2.The volume is proportional to the cube of the diameter, but the area, only to the square of the diameter. For example, if you double the diameter, the area will increase by a factor of 4, and the volume, by a factor of 8. Thus, the area/volume ratio will worsen, by a factor of 2.The volume is proportional to the cube of the diameter, but the area, only to the square of the diameter. For example, if you double the diameter, the area will increase by a factor of 4, and the volume, by a factor of 8. Thus, the area/volume ratio will worsen, by a factor of 2.The volume is proportional to the cube of the diameter, but the area, only to the square of the diameter. For example, if you double the diameter, the area will increase by a factor of 4, and the volume, by a factor of 8. Thus, the area/volume ratio will worsen, by a factor of 2.
Solids have a fixed volume or shape at room temperature or pressure.
No shape can have a volume of 6 cm2
It depends on the shape. There is nothing in the question that indicates that the shape is a cuboid. If the shape is a cuboid then the volume is 8x12.5x10 = 1000 cu.in.
The shape factor of a cupcake can be determined by measuring its height, diameter, and volume. The shape factor is typically calculated by dividing the surface area of the cupcake by its volume. This provides a measure of how compact or spread out the cupcake is.
The general form for the shape factor of any shape is: Ks = (DeA) / V where Ks : Shape Factor De : Equivalent Diameter of a sphere with a volume equal to the volume of the non-spherical particle A : Area of the shape V : Volume of the shape By setting the equation for the volume of a sphere and the volume of the shape in question (in this case a cylinder) we can find De. De = ((3/4) r2 h)(1/3) De : Equivalent Diameter D : Diameter of the cylinder h : height of cylinder Substituting the formula for the area and volume of a cylinder and the De into the general form will give us the shape factor for a cylinder.
To find the scale factors of two objects, you need to compare the ratios of things like their sizes, areas, volumes, and length. For example, if one is given a volume of 7 for a shape, and a second shape has a volume of 14, you have to compare the volume ratio of these two shapes to find the scale factor. This scale factor is 1 to 2, or the volume of the second shape is twice the first one. Scale factors are useful for scale drawings.
The state of matter that does not have a definite volume or shape is gas. Gases will expand to fill the space available to them and do not have a fixed shape or volume.
- solids have a shape and a volume- liquids have a volume but not a shape- gases haven't shape or volume (in free form)
A solid object has both volume and shape. Volume refers to the amount of space it occupies, while shape refers to its physical form or configuration.
No, it doesn't. It does not have a shape or volume.
Solids have definite shape and definite volume. Liquids have not definite shape but have definite volume. Gases have neither definite shape not definite volume.
a solide has a shape of its shape and volume
a solide has a shape of its shape and volume
a solide has a shape of its shape and volume
gas has no shape and no definite volume. liquids have no definite shape, but a definite volume, and solids have a definite volume and a definite shape