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Average speed is calculated by dividing the total distance traveled by the total time taken. In this case, 32 meters divided by 0.8 seconds is 40 m/s. Therefore, the average speed of the bowling ball is 40 m/s.
Use the formula: Speed = distance / time. If you divide meters / seconds, the speed will obviously be in meters/second.
The velocity of the ball will be -30 m/s (downward) after 5 seconds due to gravity.
The sprinter's speed is 5 meters per second. This is calculated by dividing the distance (200 meters) by the time taken (40 seconds).
The horizontal speed of the ball can be calculated using the equation: horizontal distance = horizontal speed * time. In this case, the horizontal distance is 40 meters and the time is 4 seconds. Therefore, the horizontal speed of the ball was 10 m/s.
10 m/s
Average speed is calculated by dividing the total distance traveled by the total time taken. In this case, 32 meters divided by 0.8 seconds is 40 m/s. Therefore, the average speed of the bowling ball is 40 m/s.
You throw a ball straight up with a velocity of 40 meters per second. What is the ball's velocity after 3 seconds?
.41 tenth of a second = 0.041 seconds. 40 feet in 0.041 seconds = 975.61 feet/sec = 665.2 miles per hour. That is very fast for a ball. I can't think of any sport shifting a ball at that speed. In tennis the top players get the ball going at over 100mph, but not over 150mph, the same in cricket.
40 seconds, unless a timeout was called, in which case they have 60 seconds
40 meters/10 seconds = 4 meters per second.
To find the speed of runners who cover 40 meters in 8 seconds, you can use the formula for speed: speed = distance/time. In this case, the speed would be 40 meters divided by 8 seconds, which equals 5 meters per second. Therefore, the runners are running at a speed of 5 m/s.
Use the formula: Speed = distance / time. If you divide meters / seconds, the speed will obviously be in meters/second.
The ball was thrown horizontally at 10 meters per sec, and the thrower's arm was 78.4 meters above the base of the cliff.
The velocity of the ball will be -30 m/s (downward) after 5 seconds due to gravity.
The sprinter's speed is 5 meters per second. This is calculated by dividing the distance (200 meters) by the time taken (40 seconds).
40 feet in 0.5 seconds = 80 feet in 1 sec ie 80 fps