Question
Angle in the graphical representation represents
- Direction
- Value
- Heat
- Mass
Hint:
Direction
The correct answer is: Direction
Angle in the graphical representation represents the direction. It represents the characteristics of the vector.
If the length of the arrow gives the magnitude of the vector, then the angle would give the direction of the vector quantity.
Related Questions to study
Speed is a _________ quantity.
Speed is the rate of the change of distance with respect to time, while velocity is a vector quantity- it is the speed of an object in a particular direction.
Speed is a _________ quantity.
Speed is the rate of the change of distance with respect to time, while velocity is a vector quantity- it is the speed of an object in a particular direction.
If a scalar is multiplied by a vector, the whole quantity becomes?
When a vector is multiplied by a scaler quantity, the magnitude of the vector quantity changes in accordance with the magnitude of the scaler quantity but the direction of the vector remains unchanged, hence, after multiplication of both the quantities the whole quantity becomes a vector quantity.
If a scalar is multiplied by a vector, the whole quantity becomes?
When a vector is multiplied by a scaler quantity, the magnitude of the vector quantity changes in accordance with the magnitude of the scaler quantity but the direction of the vector remains unchanged, hence, after multiplication of both the quantities the whole quantity becomes a vector quantity.
|A| if A is a vector, the symbol| | represents
A vector is represented by the arrow, and arrow gives the direction, hence, | | gives the magnitude.
|A| if A is a vector, the symbol| | represents
A vector is represented by the arrow, and arrow gives the direction, hence, | | gives the magnitude.
The arrow on the vector represents
The arrow on the vector represents
Displacement is a _________ quantity.
Displacement is a _________ quantity.
Quantities that have only magnitude but not direction are
Scaler quantities are those quantities that can be determined by magnitude and not by direction. These can be determined only by numerical value and not direction
Quantities that have only magnitude but not direction are
Scaler quantities are those quantities that can be determined by magnitude and not by direction. These can be determined only by numerical value and not direction
The velocity of a person on the boat is 6m/s, and the velocity of the river is 8m/s.
Find the velocity of the person with respect to the river.
The velocity of a person on the boat is 6m/s, and the velocity of the river is 8m/s.
Find the velocity of the person with respect to the river.
If a body is moved to a displacement of 8 m in 4 s. Find the velocity of the body.
If a body is moved to a displacement of 8 m in 4 s. Find the velocity of the body.
A man is walking in the rain with the speed of 6 m/s in the west direction, and it is raining vertically downwards with the speed of 3 m/s. Find the direction of the person umbrella so that the rain doesn't wet him.
A man is walking in the rain with the speed of 6 m/s in the west direction, and it is raining vertically downwards with the speed of 3 m/s. Find the direction of the person umbrella so that the rain doesn't wet him.
A man is walking in the rain with the speed of 4 m/s in the west direction, and it is raining vertically downwards with the speed of 4 m/s. Find the direction of the person’s umbrella so that the rain does not wet him.
A man is walking in the rain with the speed of 4 m/s in the west direction, and it is raining vertically downwards with the speed of 4 m/s. Find the direction of the person’s umbrella so that the rain does not wet him.
The velocity of a person on the boat is 6 m/s, and the river's velocity is 9 m/s.
The velocity of a person on the boat is 6 m/s, and the river's velocity is 9 m/s.
If the aeroplane's velocity is 20 m/s, the distance from the initial to the final point is 1200 m. Find the time taken by the aircraft to reach the destination
If the aeroplane's velocity is 20 m/s, the distance from the initial to the final point is 1200 m. Find the time taken by the aircraft to reach the destination
If the velocity of the aeroplane is 20 m /s, the distance from the initial to the final point is 2300 m. Find the time taken by the aircraft to reach the destination.
1 hr 55 mins equals 115 minutes
If the velocity of the aeroplane is 20 m /s, the distance from the initial to the final point is 2300 m. Find the time taken by the aircraft to reach the destination.
1 hr 55 mins equals 115 minutes