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Well, isn't that just a happy little question! To find the velocity of the storm, you simply need to know the direction it's moving in. Velocity is a vector quantity that includes both speed (15 km/hr in this case) and direction. So, if you know the direction, you can describe the storm's velocity fully. Just like painting a beautiful landscape, understanding the full picture can help you appreciate the beauty of nature's creations.
What else can I help you with?
Use the following graph of a car traveling on a straight northerly path to answer this question. At what time would the magnitude of the velocity reach 72 kmhr?
The magnitude of the velocity would reach 72 km/hr at around 5 seconds based on the graph shown. This is when the slope of the velocity-time graph is steepest, indicating the highest rate of change in velocity.
A car accelerates from a standstill to 60 kmhr in 10 seconds What is its acceleration?
The acceleration of the car can be calculated using the formula: acceleration = (final velocity - initial velocity) / time. Converting the initial velocity of 0 km/hr to m/s and final velocity of 60 km/hr to m/s, and plugging in the values, we get the acceleration to be 2 m/s^2.
Which has a greater momentum a cheetah with a mass of about 74 kg and a running speed of up to 31 ms or an elephant with a mass of 7000 kg running at 18 kmhr?
The momentum of an object is determined by its mass and velocity. In this case, the cheetah with a mass of 74 kg and a speed of 31 m/s would have a greater momentum than the elephant with a mass of 7000 kg running at 18 km/hr. This is because momentum is proportional to both mass and velocity, and the cheetah has a higher speed despite having much less mass.
If Diogo drives a car at 85 kmhr for 3 hours how far did he travel?
Diogo traveled 255 kilometers in total. This can be calculated by multiplying his speed (85 km/hr) by the time he traveled (3 hours).
A remote community desperately needs more electrical energy. It is located in an area with the following characteristics Average wind speed of 0 to 5 kmhr Some medium-size rivers with fast-moving curr?
Installing a micro-hydro system could harness the energy from the fast-moving rivers, providing a reliable and sustainable source of electricity for the remote community. Additionally, small-scale wind turbines could also be installed to take advantage of the low to moderate wind speeds in the area, further supplementing the energy needs of the community. By combining these two renewable energy sources, the community can become more self-sufficient and less reliant on traditional grid power.
Is 60 kmhr North an example of velocity?
Three letters:yes.
If a boat is traveling east at 20 kmhr and the river it is on flows west at 5 kmhr what is the velocity of the boat?
20 km/hr - 5 km/hr = 15 km/hr
Suppose velocity is measured kmhr and time is measured in hourswhat is that unit of acceleration?
If velocity is km/hr and time is in hours then acceleration will be in km/hr2
Covers 825m in 137 seconds find average velocity in ms and kmhr?
6.021 m/second
A boat is moving at 20 kmhr and the accelerates at 3 kmhrsec until it is going 30 kmhr how fast is the boat moving at the end of it's acceleration?
30 km/hr because it accelerates until it reaches 30 km/hr
John took 45 minutes to bicycle to his grandmothers house a total of four kilometers what was his velocity in kmhr?
5 1/3 kmh
When was KMHR created?
KMHR was created on 1981-10-26.
Peter drove at 45 kmhr for 3 hours and at 30 kmhr for the rest of the journey of 195 kms. How long did he drive at 30 kmhr?
2 hours
Two trains moving in opposite directions with some velocities 500 and 700 kmhr The distance is 2400km then find the time taken for them to meet?
Never.
Use the following graph of a car traveling on a straight northerly path to answer this question. At what time would the magnitude of the velocity reach 72 kmhr?
The magnitude of the velocity would reach 72 km/hr at around 5 seconds based on the graph shown. This is when the slope of the velocity-time graph is steepest, indicating the highest rate of change in velocity.
How fast is 275 kmhr?
170.88 MPH
A car accelerates from a standstill to 60 kmhr in 10 seconds What is its acceleration?
The acceleration of the car can be calculated using the formula: acceleration = (final velocity - initial velocity) / time. Converting the initial velocity of 0 km/hr to m/s and final velocity of 60 km/hr to m/s, and plugging in the values, we get the acceleration to be 2 m/s^2.
