Distance = Speed*Time = 800.0*7.95 = 6360 km
I assume you refer to the distance between the points.I assume you refer to the distance between the points.I assume you refer to the distance between the points.I assume you refer to the distance between the points.
0 to 3
I assume you refer to the formula distance = velocity x time. If an object moves upward, the distance would become the height.
2=8/4 the constant is 8 y-k/x i think.
Assume the car has constant acceleration a and initial velocity 0. Then the velocity at time t will be a*t, so if we call the distance travelled at time t, x, we get the following identity: a*t = dx/dt This differential equation can be solved in any number of ways to yield 1/2 * a * t^2 = x where the constant of integration is zero since the distance travelled at time 0 is 0 by definition. Therefore we have: a = 2*x/t^2 = 2*5m/(4.5s)^2 = 40/81 ms^-2 or about half a meter per second squared
I am going to assume you meant a constant speed of 1.5km/min. speed = distance/time distance = speed x time = 1.5km/min x 5.0min = 7.5km
I assume that you are asking about the definition of a circle. A circle is a locus of points in a plane that are at a constant distance from a fixed point.
I assume you refer to the distance between the points.I assume you refer to the distance between the points.I assume you refer to the distance between the points.I assume you refer to the distance between the points.
You can derive it from accelerating an object to a certain speed. Assume constant acceleration (and therefore constant force), and calculate how much work (force x distance) you need to get the object to a specific speed.
yes
A lot of mathematical problems about travelling distances, assume that you are travelling at a constant speed.
The net force acting on it is zero.
I assume you mean Ricky Gervais.
How you can use the speedometer and a clock to tall how far you've traveled in a car if the cars odometer is not working. Hint assume you are traveling at a constant velocity
I would assume that the use of the constant in this scenario is in a formula. Generally, it would act as a proportionality factor, where when everything is kept constant, the result will be increased on decreased proportionately based on that constant.
If you assume a constant speed, you need to multiply the speed by the time, to get the distance. You would also need to convert all the units to compatible units - for example, the time to minutes, and the speed to kilometers/minute; or the time to hours, and the speed to kilometers/hour.
since PV=nRT and we assume that the number of moles and temperature remains constant, we can assume that PV=R as R the gas constant will not change, if pressure is increased, then volume must decrease to counteract the change in pressure