What happens when you shake vigorously a branch of mango tree?
Answer: When we shake a mango tree, the mangoes fall down. It is because when we shake the tree, the mangoes tend to be at rest due to inertia whereas the branches are in motion. That is why the mangoes get detached from the branches.
Which motion is ripe mango falling down?
rectilinear motion
Which type of motion is an apple falling from a tree?
An apple falling from a tree will be an example of straight-line motion because it will fall vertically downwards in the gravity following a straight line.
Why does a mango fall to the ground?
The main factors are weather changes, inadequate soil moisture, lack of pollination, and ovule abortion. And the other factors are embryo degeneration, pests, insects, diseases, lack of fertilizer, and low photosynthetic level can cause the young mango fruits to fall off.
Does an apple fall down from a tree shows uniform or nonuniform motion?
Answer: Apple falling down from a tree shows non-uniform motion. Explanation: When an apple falls form tree, it falls with increasing velocity because here an apple is a free falling body and acceleration due to gravity acted upon it.
What type of motion is exhibited by a freely falling body uniform or non-uniform?
Solution. A freely falling body exhibits non-uniform motion. Its velocity increases at a constant rate, so it shows uniformly accelerated motion.
What type of motion uniform or nonuniform motion is exhibited by a freely falling body?
A freely falling body has non-uniform motion because it covers smaller distances in the initial ‘1 seconds’ intervals and larger distances in the later ‘1second’ intervals i.e. it covers unequal distances in equal intervals of time.
What type of motion is that of freely falling body?
uniformly accelerated motion
What type of motion is free falling?
Free Fall Motion As learned in an earlier unit, free fall is a special type of motion in which the only force acting upon an object is gravity. Objects that are said to be undergoing free fall, are not encountering a significant force of air resistance; they are falling under the sole influence of gravity.