ice chunks are left behind and theres valleys that the glacier created
No, you cannot.
An erratic, such as a erratic boulder, can provide information about the direction and size of ice movement during past glaciation periods. By studying the type of rock and its location in relation to the source bedrock, geologists can determine the distance the glacier traveled and the direction it moved.
To determine velocity, you must know the object's distance traveled, the direction in which it traveled, and the time it took to travel that distance. Velocity is a vector quantity that includes both speed (magnitude) and direction.
It's either onw of Fleming's rules, Franic, or Jefferson
If you divide he distance by the time, and take into account the direction traveled, you will get the AVERAGE velocity during the time considered.
Speed describes the distance traveled by an object divided by the time in which the distance was traveled, if the direction is not specified.
Displacement is the same as direction traveled when an object moves in a straight line with no change in direction. In this case, the distance traveled by the object is equal to its displacement.
To determine speed, you must know the distance traveled and the time taken to cover that distance. Speed is calculated as distance divided by time. You may also need to know the direction of motion if you want to determine the velocity, which includes both speed and direction.
The glacier likely advanced from the southwest. Drumlins form as glaciers move over the landscape and shape the land underneath them. The steep side of a drumlin points in the direction the glacier advanced from, indicating a southwest direction in this case.
speed of the object. Speed is calculated by dividing the distance traveled by the time it took to travel that distance.
nascar
Drumlin