acceration = velocity X time
Because that's how it was found to calculate it.
The time it will take to move the next half meter depends on the acceleration of the body. If the acceleration remains constant, the time to move the next half meter can be calculated using the initial velocity, displacement, and acceleration.
the SI unit of displacement is M(meter)
To calculate the mass of an object using a Newton meter, you would measure the force of gravity acting on the object in Newtons, and then divide this force by the acceleration due to gravity (9.8 m/s^2) to find the mass in kilograms. The formula is mass = force of gravity / acceleration due to gravity.
Mass and distance don't go together to make force.(Or anything else, actually. One kilogram-meter has no physical significance. One kilogramper meter might be the density of a uniform solid like a rod or a wire.).You can make force out of mass and acceleration.
you can calculate a meter by using maybe a meter stick or a tape measure...
To calculate the wave number in a given wave equation, you can use the formula: wave number 2 / wavelength. The wave number represents the spatial frequency of the wave, and is measured in units of reciprocal length, such as radians per meter.
you can calculate a meter by using maybe a meter stick or a tape measure...
meter/second2.
First, calculate the centripetal acceleration, as speed squared divided by radius.Then you can use Newton's Second Law to calculate the corresponding force.
They are measures of distance or displacement.
The car's acceleration can be calculated using the formula: acceleration = (final velocity - initial velocity) / time. Plugging in the values, we get: (30 m/s - 20 m/s) / 10 sec = 1 m/s^2. The car's acceleration is 1 meter per second squared.