Since speed is distance traveled per unit of time, divide the distance by the time. Something that moves 5 meters in 30 seconds has an average speed of 5/30 m/s, which simplifies to 1/6 m/s, which is approximately 0.1667 m/s or 16.67 cm/s. If you prefer, you can multiply 0.1667 m/s by 3600 s/hr and divide it by 1000 m/km, giving you about 0.6 km/hr.
If you traveled 100 meters in 30 seconds, then you would be traveling at 3.333... meters per second, or 200 meters per minute, or 12 kilometers per hour (7.45 miles/hour).
7 G means 7 times the standard Earth acceleration, which is about 9.8 meters per second square (meters per second per second). That is, at such an acceleration, the object's speed will increase by 7 x 9.8 = 68.6 meters per second, every second. 30 days = 30 x 86400 = 2,592,000 seconds, so you will have a speed of 177,811,200 meters per second - a little more than half the speed of light.At that speed, relativistic effects should have a small effect, but if you accelerate for a few more days at 7g, you would have to take the Theory of Relativity into account. For example, you will not be able to reach the speed of light, even though this simple calculation would indicate that you could.7 G means 7 times the standard Earth acceleration, which is about 9.8 meters per second square (meters per second per second). That is, at such an acceleration, the object's speed will increase by 7 x 9.8 = 68.6 meters per second, every second. 30 days = 30 x 86400 = 2,592,000 seconds, so you will have a speed of 177,811,200 meters per second - a little more than half the speed of light.At that speed, relativistic effects should have a small effect, but if you accelerate for a few more days at 7g, you would have to take the Theory of Relativity into account. For example, you will not be able to reach the speed of light, even though this simple calculation would indicate that you could.7 G means 7 times the standard Earth acceleration, which is about 9.8 meters per second square (meters per second per second). That is, at such an acceleration, the object's speed will increase by 7 x 9.8 = 68.6 meters per second, every second. 30 days = 30 x 86400 = 2,592,000 seconds, so you will have a speed of 177,811,200 meters per second - a little more than half the speed of light.At that speed, relativistic effects should have a small effect, but if you accelerate for a few more days at 7g, you would have to take the Theory of Relativity into account. For example, you will not be able to reach the speed of light, even though this simple calculation would indicate that you could.7 G means 7 times the standard Earth acceleration, which is about 9.8 meters per second square (meters per second per second). That is, at such an acceleration, the object's speed will increase by 7 x 9.8 = 68.6 meters per second, every second. 30 days = 30 x 86400 = 2,592,000 seconds, so you will have a speed of 177,811,200 meters per second - a little more than half the speed of light.At that speed, relativistic effects should have a small effect, but if you accelerate for a few more days at 7g, you would have to take the Theory of Relativity into account. For example, you will not be able to reach the speed of light, even though this simple calculation would indicate that you could.
The acceleration of the car can be calculated using the formula: acceleration = (final velocity - initial velocity) / time. In this case, the initial velocity is 30 m/s, the final velocity is 0 m/s (since the car stops), and the time is 3.0 seconds. Plugging these values into the formula gives: acceleration = (0 - 30) / 3.0 = -10 m/s^2. Therefore, the acceleration of the car is -10 m/s^2.
In 30 years, there are 946,080,000 seconds. This is calculated by multiplying the number of years (30) by the number of seconds in a year (31,536,000).
The speed of sound at 30 degrees Celsius is approximately 343 meters per second in dry air. However, the speed of sound can vary depending on factors such as humidity and air pressure.
The speed of sound at sea level is 10,208.7 meters per 30 seconds.
what is the speed of a rocket that travels 9000 meters in 12.12 seconds
-- Your speed after 30 seconds will be 30 meters per second.-- Since your acceleration is constant, your average speed during the 30 secondsis the average of your initial and final speed . . . 15 meters per second.-- The distance you cover is your average speed for 30 seconds = 15 x 30 = 450 meters.
If a rabbit hops 2 meters in 30 seconds, its average speed is 1 meter per 15 seconds, or also 4 meters per minute. This depends on if you want to find the distance for every second, minute, hour, day, week, year, etc.
Speed = 30 mpsTime = 20sDistance = speed * timeDistance = 30 * 20 = 600 meters.
200 meters per hour
The speed is exactly 30 meters per 10 seconds. It can also be expressed as 3 meters per second, 180 meters per minute, 10.8 kilometers per hour, etc.
To calculate speed, you divide the distance traveled by the time taken. In this case, the speed would be 30 meters divided by 10 seconds, which equals 3 meters per second. Speed is a scalar quantity, meaning it only has magnitude, not direction.
You use the formula speed = distance/time
Speed = (wavelength) times (frequency) = (wavelength) divided by (period) = 30/5 = 6 meters per second
To calculate the average speed in meters per second (ms) for a distance of 1.60 km covered in 30 minutes, first convert the distance to meters: 1.60 km is 1600 meters. Next, convert the time to seconds: 30 minutes is 1800 seconds. Finally, divide the distance by the time: average speed = 1600 meters / 1800 seconds = approximately 0.89 m/s.
You need to convert the minutes to seconds. Then, simply divide the distance (meters) by the time in seconds.