To determine the velocity vector from a given position in a physical system, you can calculate the derivative of the position vector with respect to time. This derivative gives you the velocity vector, which represents the speed and direction of motion at that specific point in the system.
Yes, the initial velocity can be negative in a physical system.
amplitude is the maximum displacement right from the equilibrium position. It does not depend on the mass, period or velocity. Recall displacement at any instant t is y = A sin 2 pi f t or A sin 2 pi t/T f = frequency and T - time period.
One can determine the flow velocity in a fluid system by measuring the rate of flow and the cross-sectional area of the system. By dividing the flow rate by the cross-sectional area, the flow velocity can be calculated.
To determine the velocity of the center of mass of a system of particles, you can use the formula: velocity of center of mass (total momentum of the system) / (total mass of the system). This formula takes into account the individual velocities and masses of all the particles in the system.
One method to determine the relationship between velocity and acceleration in a system is to analyze the system's motion using calculus. By taking the derivative of the velocity function, you can find the acceleration function, which shows how velocity changes over time. This allows you to understand the relationship between velocity and acceleration in the system.
Yes, the initial velocity can be negative in a physical system.
amplitude is the maximum displacement right from the equilibrium position. It does not depend on the mass, period or velocity. Recall displacement at any instant t is y = A sin 2 pi f t or A sin 2 pi t/T f = frequency and T - time period.
One can determine the flow velocity in a fluid system by measuring the rate of flow and the cross-sectional area of the system. By dividing the flow rate by the cross-sectional area, the flow velocity can be calculated.
To determine the velocity of the center of mass of a system of particles, you can use the formula: velocity of center of mass (total momentum of the system) / (total mass of the system). This formula takes into account the individual velocities and masses of all the particles in the system.
One method to determine the relationship between velocity and acceleration in a system is to analyze the system's motion using calculus. By taking the derivative of the velocity function, you can find the acceleration function, which shows how velocity changes over time. This allows you to understand the relationship between velocity and acceleration in the system.
An inertial navigation system (INS) can provide position and velocity information without needing any external input. It uses accelerometers and gyroscopes to track changes in velocity and position based on the initial conditions set at the start of the navigation.
instantaneous velocity
No. A planet's mass does not determine the position of its orbit.
Displacement is negative in a physical system when an object moves in the opposite direction of its initial position.
Velocity is a vector quantity that represents the rate at which an object changes its position. It is calculated as the change in position (displacement) divided by the time taken. The unit of velocity is meters per second (m/s) in the International System of Units (SI).
it sends signals to a satellite and tell where you are
The damping coefficient in a system can be calculated by dividing the damping force by the velocity of the system. This helps determine how much the system resists oscillations and vibrations.