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To calculate the velocity of an object, you would typically need two measurements: the distance traveled and the time taken to travel that distance. By dividing the distance traveled by the time taken, you can determine the object's velocity.
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How do you find the average velocity pressure?
To find the average velocity pressure, you would need to calculate the total velocity pressure and divide it by the number of measurements taken. This would give you the average velocity pressure over the measurement period.
How do you calculate Velocity squared?
Velocity squared is calculated by multiplying the velocity of an object by itself. For example, if the velocity of an object is 10 m/s, then the velocity squared would be 10 m/s * 10 m/s = 100 m/s^2.
Anya knows the velocity of an object. What else does she need to know in order to find the objects momentum?
The mass of the object.
Calculate what is the momentum of a 750 kg car travelling at a velocity of 25 ms?
The momentum of an object is calculated by multiplying its mass by its velocity. In this case, the momentum of the car would be 18,750 kg*m/s.
What would be the momentum if the velocity were tripled?
If the velocity of an object is tripled, then the momentum of the object would also be tripled since momentum is directly proportional to velocity.
How do you find the average velocity pressure?
To find the average velocity pressure, you would need to calculate the total velocity pressure and divide it by the number of measurements taken. This would give you the average velocity pressure over the measurement period.
How do you calculate Velocity squared?
Velocity squared is calculated by multiplying the velocity of an object by itself. For example, if the velocity of an object is 10 m/s, then the velocity squared would be 10 m/s * 10 m/s = 100 m/s^2.
Anya knows the velocity of an object. What else does she need to know in order to find the objects momentum?
The mass of the object.
How do you calculate height based on velocity and time?
I assume you refer to the formula distance = velocity x time. If an object moves upward, the distance would become the height.
Is the rate at which an object changes velocity?
No, velocity is the instantaneous speed of an object, the rate of change would be the acceleration of the object.
Calculate what is the momentum of a 750 kg car travelling at a velocity of 25 ms?
The momentum of an object is calculated by multiplying its mass by its velocity. In this case, the momentum of the car would be 18,750 kg*m/s.
What would be the momentum if the velocity were tripled?
If the velocity of an object is tripled, then the momentum of the object would also be tripled since momentum is directly proportional to velocity.
How do you clculate the speed of an object if you know the mass and work?
You cannot directly calculate the speed of an object knowing only its mass and work. Speed is determined by the object's kinetic energy, which is related to both its mass and velocity. To calculate speed, you would need more information such as the object's kinetic energy or the distance traveled.
What tools are needed to find the denisty of an object?
To find the density of an object, you would need a balance to measure its mass and a ruler to measure its volume. Once you have these measurements, you can use the formula density = mass/volume to calculate the density of the object.
What is a non example of velocity?
A non-example of velocity would be a stationary object at rest. Velocity specifically refers to the speed of an object in a specific direction, so an object that is not moving does not have velocity.
What would the net force be on an object moving at constant velocity?
The net force on an object moving at constant velocity would be zero. This is because the forces acting on the object are balanced, resulting in no acceleration or change in its velocity.
What would happen to an object's velocity if positive work was done on an object?
If positive work is done on an object, its velocity will increase. This is because work done on an object transfers energy to the object, which can result in an increase in its kinetic energy and thus its velocity.
