distance = speed X time at speed. Therefore, in this instance, the distance is 3 X 50 + 70 X (1/2) = 185 miles.
distance traveled=60 km.time =45 minutes=45/60 hrs=0.75 hrsthen speed =distance traveled/total time=60/ 0.75 km/hr=80 km/hr
The relationship between the speed of the train (r) and the distance traveled (d) is described by the equation ( d = rt ), where ( t ) is the time. This indicates that distance is directly proportional to speed; as the speed increases, the distance traveled in a given time also increases. Conversely, if the speed decreases, the distance traveled in the same time will also decrease. Thus, the speed of the train directly affects how far it can travel.
Answer: 1 3/5 hours or 1 hour and 36 minutes Explanation: Distance traveled = Speed * time or solved for time is time = distance traveled / speed Plug in known values for speed and distance traveled and you will get the time it took.
I think you can figure it out yourself
In a second, light travels about 300,000 km., or 3x108 meters.
distance traveled=60 km.time =45 minutes=45/60 hrs=0.75 hrsthen speed =distance traveled/total time=60/ 0.75 km/hr=80 km/hr
Its speed is the distance it travels per unit time.
The relationship between the speed of the train (r) and the distance traveled (d) is described by the equation ( d = rt ), where ( t ) is the time. This indicates that distance is directly proportional to speed; as the speed increases, the distance traveled in a given time also increases. Conversely, if the speed decreases, the distance traveled in the same time will also decrease. Thus, the speed of the train directly affects how far it can travel.
Answer: 1 3/5 hours or 1 hour and 36 minutes Explanation: Distance traveled = Speed * time or solved for time is time = distance traveled / speed Plug in known values for speed and distance traveled and you will get the time it took.
As light travels further from its source, its intensity decreases with the square of the distance traveled. This is known as the inverse square law, meaning the intensity of light diminishes drastically as distance increases. This is due to the spreading out of light over a larger area as it travels further.
The average distance traveled by a tornado is about 5 miles.
The distance traveled by an object is determined by multiplying its speed by the time it travels for. So, distance = speed x time.
I think you can figure it out yourself
When the Force increases on an Object, the Distance it travels INCREASES, as does its Velocity.
The speed of a vehicle and the distance it travels in a certain amount of time: the faster the vehicle travels, the farther it will go in the same amount of time. The amount of gas used by a car and the distance it can travel: as the distance traveled increases, the amount of gas used will also increase proportionally.
3,600 meters
The speed of the wave is a measure of the distance it travels in a specific amount of time. It can be calculated as the distance traveled by the wave divided by the time taken.