The objects are in motion relative to each other.
Answer: The average speed of the object is 1.95 m/s. Explanation: Distance traveled by an object in the first interval, = 2 m Time is taken in firsts interval = 2 s Distance traveled by an object in the second interval, = 80 mm Time taken in second interval = 40 s The average speed of the object is 1.95 m/s.
The gravity of an object depends on its mass and the distance between it and another object. The larger the mass of an object and the closer it is to another object, the stronger the gravitational force between them.
The velocity of the object is 10 m/s.
The average speed of the object from t0 s to t3 s is calculated by dividing the total distance traveled by the object in that time interval by the total time taken. This gives the overall speed of the object during that time period.
This is known as acceleration (rate of change of velocity) measured in units of m/s/s or m/s2
4m/s
Answer: The average speed of the object is 1.95 m/s. Explanation: Distance traveled by an object in the first interval, = 2 m Time is taken in firsts interval = 2 s Distance traveled by an object in the second interval, = 80 mm Time taken in second interval = 40 s The average speed of the object is 1.95 m/s.
9.8m/s/s -BHS
The gravity of an object depends on its mass and the distance between it and another object. The larger the mass of an object and the closer it is to another object, the stronger the gravitational force between them.
The velocity of the object is 10 m/s.
The average speed of the object from t0 s to t3 s is calculated by dividing the total distance traveled by the object in that time interval by the total time taken. This gives the overall speed of the object during that time period.
This is known as acceleration (rate of change of velocity) measured in units of m/s/s or m/s2
The time it will take for an object traveling at 25 m/s to reach a distance of 125 meters can be calculated using the formula ( time = distance / speed ). Therefore, the object will take 5 seconds to reach 125 meters.
Let s denote distance v denote speed t denote time. s = integral(v)dt If speed is constant, s = vt.
If the object travels the same distance at a higher speed, the time it takes to travel the distance will decrease. This is because time is inversely proportional to speed when distance is constant. So, increasing the speed will result in less time taken to cover the same distance.
0 m/s
Motion is described in terms of speed by calculating the rate at which an object covers a distance. Speed is the distance traveled by an object per unit of time, commonly measured in meters per second (m/s) or kilometers per hour (km/h). It indicates how fast or slow an object is moving.