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β 11y agoIn general, smaller objects tend to travel faster than larger objects. This is because smaller objects have less mass, which means they require less force to accelerate to higher speeds. However, the relationship between size and speed can vary depending on other factors like the shape, material, and external forces acting on an object.
An object in motion is considered a point object when its size or shape is negligible compared to the distance it travels. This simplification is often made in physics to focus on the object's motion through space without considering its internal structure or size.
Displacement and distance travelled are synonymous, so my inference would be no, it can't.
Shadows are formed when an object blocks light, demonstrating that light travels in straight lines. Shadows change in size and shape based on the position of the light source and the object creating the shadow. By studying shadows and how they are shaped, we can learn about the properties and behavior of light.
The change in size of an image compared with the size of an object is termed magnification. This can be calculated as the ratio of the size of the image to the size of the object. Magnification can be expressed as magnification = image size / object size.
A shadow proves that light is being blocked or absorbed by an object, creating an area of darkness behind it. Shadows are a result of light not being able to pass through an opaque object, and they provide information about the shape and size of the object casting them.
size does not relate to density
Size of acceleration = (net force)/(mass)
i don't know y don't u tell me
An object in motion is considered a point object when its size or shape is negligible compared to the distance it travels. This simplification is often made in physics to focus on the object's motion through space without considering its internal structure or size.
The cells size and shape relate to its function.
Displacement and distance travelled are synonymous, so my inference would be no, it can't.
They relate because they have the same shape and size.
no they dont
The change in size of an image compared with the size of an object is termed magnification. This can be calculated as the ratio of the size of the image to the size of the object. Magnification can be expressed as magnification = image size / object size.
Shadows are formed when an object blocks light, demonstrating that light travels in straight lines. Shadows change in size and shape based on the position of the light source and the object creating the shadow. By studying shadows and how they are shaped, we can learn about the properties and behavior of light.
uranus is bigger
Density = Mass/Volume or mass/size.