Velocity is a vector quantity that has both magnitude (speed) and direction. The size of velocity is its speed, which is the rate of change of displacement with respect to time. It is represented by a positive scalar value.
The ratio of velocity to speed of an object is always equal to 1 since velocity and speed are both scalar quantities that denote the rate of an object's motion, with velocity also specifying the direction of motion.
The size of a velocity vector is its magnitude, which represents the speed of the object and in which direction it is moving. It is a scalar quantity that is calculated using the Pythagorean theorem by taking the square root of the sum of the squares of the vector's components in each dimension.
No, the terminal velocity of two different size spheres will not be the same. Terminal velocity is influenced by the size, shape, and weight of an object. Larger spheres are likely to reach a higher terminal velocity than smaller ones due to differences in air resistance.
A logarithmic graph would best represent the relationship between stream velocity and the size of particles it can carry downstream. As velocity increases, the stream can carry larger particles due to increased erosion and transport capacity. However, there will be a limit to the size of particles carried downstream as velocity continues to increase.
The angular velocity of an object typically increases as it decreases in size, due to the conservation of angular momentum. This is because the moment of inertia decreases as the object's size decreases, causing the angular velocity to increase to maintain the same angular momentum.
The size of velocity and the size of speed are the same number. But velocity also has a direction and speed doesn't.
As the steam velocity increases, the diameter of the sediments being transported increases.
If you ignore the direction of the velocity and only consider its size, then you have speed.
The size of the velocity is the speed, and you calculate it the same way. But whenyou find the size of the velocity, you're not done yet, because you also need itsdirection.
The ratio of velocity to speed of an object is always equal to 1 since velocity and speed are both scalar quantities that denote the rate of an object's motion, with velocity also specifying the direction of motion.
The size of a velocity vector is its magnitude, which represents the speed of the object and in which direction it is moving. It is a scalar quantity that is calculated using the Pythagorean theorem by taking the square root of the sum of the squares of the vector's components in each dimension.
No. Speed tells the size of velocity, but velocityalso includes the direction of the motion.
They have exactly the same size. The difference is that 'velocity' tells you which way the 'speed' is going.
the velocity of an object is the size of the speed/magnitude plus the direction it is going in
The terminal velocity of a falling object depends upon its aerodynamics (which is to say, its shape) rather than its size and mass.
No, the terminal velocity of two different size spheres will not be the same. Terminal velocity is influenced by the size, shape, and weight of an object. Larger spheres are likely to reach a higher terminal velocity than smaller ones due to differences in air resistance.
channel size<lies