\frac { 5 x - 1 } { 5 } - \frac { 1 + x } { 2 } = 3 - \frac { x - 1 } { 4 } x \theta ^ { 6 } = f ( x ) = - 2 x ^ { 2 } + 8 x + 4 \frac { 3 } { 7 } 2 x ^ { 2 } + 3 x 793 \times 27 y = x ^ { 2 } \sqrt { \sqrt { ( \sqrt { x ^ { 2 } - 5 } ) ^ { 2 } } + 5 } ( 3 - 4 i ) - ( - 3 - 4 i ) x ^ { 2 } - 7 x + 12 \leq 0 \frac { 2 ^ { - 6 } m ^ { 13 } n ^ { 7 } } { 5 ^ { - 2 } m ^ { 7 } n ^ { 13 } } 10 \left| x-3 \right| =40 8 x + 5 = b x - 7 \left( \begin{array} { l } { 1 } \\ { 2 } \\ { 3 } \end{array} \right) + \left( \begin{array} { l } { 4 } \\ { 5 } \\ { 6 } \end{array} \right) \sqrt { e ^ { - i x } } ( \frac{ 28 }{ 48 } + \frac{ 24.5 }{ 50 } + \frac{ x }{ 48+52 } ) \times 0.1+ \frac{ 8 }{ 10 } \times 0.15+ \frac{ 15 }{ 30 } =0.5 \frac { 4 x ^ { 1 / 2 } } { 8 x ^ { 1 / 3 } } 21 m ^ { 3 } n ^ { 2 } + 3 mn ^ { 2 } - 6 mn ^ { 3 } + 9 m ^ { 2 } n ^ { 2 } = 10 \left| x-3 \right| > 40 a ^ { 3 } b ^ { 2 } , 7 a c ^ { 4 } , 14 b ^ { 2 } c ^ { 3 } - 2 x - 14 = - 2 x + 3 y + 71 + | x + 7 y + 19 | = 0 \lim_{ x \rightarrow 0 } \left( { x }^{ x } \right) 2 \cos 2 \theta + 1 = 0 ( x - 5 ) ^ { 2 } - 9 = 0 b ^ { 2 } - 4 b + 4 = 0 \left. \begin{array} { l } { \alpha ^ { 3 } + \beta ^ { 3 } } \\ { + \gamma ^ { 3 } = } \end{array} \right. \sqrt { 12 } + \sqrt { 75 } + \sqrt { 108 } = \sqrt { e ^ { - t x } } 3 ^ { 2 } \times 4 ^ { 2 } y = - 2 x ^ { 2 } - 8 x + 1 x + 4 y > 8 - 7 = 7 j + 28 | x + 3 y + 7 | + | x + 7 y + 19 | = 0 \left\{ \begin{array} { l } { x y = 1 } \\ { x + y = \frac { 3 \sqrt { 2 } } { 2 } } \end{array} \right. - 8 - 8 y = 6 - 2 y x - 2 x ^ { 2 } = 8 \left\{ \begin{array} { l } { x y = y } \\ { x + y = \frac { 3 \sqrt { 2 } } { 2 } } \end{array} \right. x ^ { 2 } + 3 x + 2 < 0 10 x - 5 x + 2 y - 2 y + x \log_{ 2 }({ 32 }) = x y = \frac { 2 } { 3 } x + 4 2 + 2 y + x + y ( { 9 }^{ 6 } 3 x + 2 x ^ { 2 } + 4 = x ( 2 x - 3 ) = 20 { \left( \frac{ 1 }{ 5 } \right) }^{ -1 } - { \left( \frac{ 1 }{ 7 } \right) }^{ -1 } l \frac { 9 } { 5 } z ( 5 z - 3 ) e ^ { 2 } + 2 T _ { 2 } = \frac { 1.520 mm \times 290 ^ { \circ } K } { 380 mm } x \sqrt { 2 x } \left. \begin{array} { c } { \frac { 3 } { 2 } a + b = 1 } \\ { a + \frac { b } { 2 } = 7 } \end{array} \right. \log ( 01 ) \left\{ \begin{array} { l } { 2 a x + b y = 14 } \\ { - 2 x + 9 y = - 19 } \end{array} \right. \frac { \sqrt { 2 x } } { x } 15 \times 8 q = \frac { K ( 2 ) ( 3 ) ^ { 2 } } { 8 } 2 x ^ { 2 } + 8 x - y + 8 = 0 ( - 2 ) ^ { 3 } \log ( 25 ) { 0.5 }^{ 3 } 2 x ^ { 2 } + 16 x + 24 \frac{\frac{8}{5}}{\frac{2}{25}-\frac{5}{16}} ( 38 ) = 56 - 14 \frac { 2 } { 3 } - 5 x = b x + \frac { 1 } { 3 } ( \frac{ 28 }{ 48 } + \frac{ 24.5 }{ 50 } \frac{ x }{ 48+52 } ) \times 0.1+ \frac{ 8 }{ 10 } \times 0.15+ \frac{ 15 }{ 30 } \times 0.75=0.5 \left. \begin{array} { l } { 3 - 3 y = -4 }\\ { \text{Solve for } z \text{ where} } \\ { z = -2 y } \end{array} \right. \log _ { e } 2 y = - 2 x ^ { 2 } - 8 x + 9 9 = \frac { K ( 2 ) ( 3 ) ^ { 2 } } { 8 } 18 \times 1 \div 20 g ^ { 1 } ( 3 ) - 5 x - x ( x + 2 ) ( x - 4 ) ( 4 x - 1 ) ^ { 2 } = ( x - 1 ) ( x + 1 ) 7 ^ { 3 } \cdot 16 ^ { - 9 } { x }^{ 2 } 4x+3=0 y = \tan ^ { - 1 } ( - 2 x ) x ^ { 2 } + x - 56 = 0 699 \times 533 \frac{3}{n^{2}}=\frac{n-4}{3 n^{2}}+\frac{2}{3 n^{2}} - 4 x + 60 < 72 - 2 x ^ { 2 } + 12 x - 14 > 0 ( 2 x + 5 ) ( 2 x + 3 ) 7 - 2 \times ( 3 x ) = 6 x - ( - 2 ) = 26 3 \cdot ( 1 + 3 ) ^ { 2 } + 2 ^ { 2 } + 2 ^ { 3 } 2x+ { x }^{ 2 } -4 { x }^{ 3 } \log _ { 7 } 1 - \log _ { 1 } 4 \frac { 2 } { 3 - 1 } \int \frac { d x } { x \sqrt { x + 1 } } f ( x ) = 340 ( 0.025 ) ^ { x } 64+81= \left. \begin{array} { l } { x - 3 = y } \\ { 4 x = 37 + 3 x } \end{array} \right. 4 \times 16 \{ [ ( 3 * Z ^ { 2 } ) ^ { 5 } ] ^ { 3 } \} ^ { 6 } ( u + 3 ) ( u - 6 ) \log ( 0.4 ) (43.3-x) { \left(x+7.35 \right) }^{ 2 } =27562.5 8 x ^ { 3 } + 5 + 7 x ^ { 2 } + 6 x ? {(e)^{ - \infty }} ( \frac{ 28+24.5+x }{ 48+50+48+52 } ) \times 0.1+ \frac{ 8 }{ 10 } \times 0.15+ \frac{ 15 }{ 30 } \times 0.75 > 0.5 2 \cos ^ { 2 } \theta + 9 \cos \theta + 4 = 0 ( 5 c + 3 ) ( 4 c - 7 ) f ( x ) = \frac { 1 } { 6 } x ^ { 3 } + \frac { 1 } { 2 } x ^ { 2 } - \frac { 15 } { 2 } x - \frac { 43 } { 6 } 2 + 2 y = \frac { 7 } { ( x ^ { 3 } - x ^ { 2 } + 7 x ) ^ { 5 } } ( x + y ) ^ { 2 } = 5 ( \frac { x ^ { 3 } y } { 4 } ) \div ( \frac { 4 } { x } \div \frac { 6 } { y ^ { 3 } } ) { 4 }^{ 4 } \sqrt { 1 - 2 ( x ^ { 2 } + 3 x ) } { x }^{ 2 } =y \sqrt { \frac { 5 } { 20 } } 59 - 7 ( 38 ) = 56 - 14 51 x ^ { 4 } + 3 x ^ { 2 } + x + 2 f ( x ) = a _ { 0 } ( 3 x ^ { 3 } + 11 x ^ { 2 } - x - 3 ) \div ( x ^ { 2 } + 4 x + 1 ) ( 0 ) 75 x - 25 f ( x ) = \int _ { 2 } ^ { x } ( \frac { 1 } { 2 } t ^ { 2 } - 1 ) ^ { 6 } d t x ^ { 2 } - 4 x - 5 = 0 a ^ { 3 } - 4 a ^ { 2 } + 2 a - 1 2 \cdot \sqrt[ 3 ] { - 125 } + 4 \cdot \sqrt[ 5 ] { 32 } - 6 \cdot \sqrt[ 3 ] { - 8 } - x - 2 - x - 2 (32 \sqrt{ 3 } ) \times 2 \frac{ 1 }{ 2 } x+x = \frac{ 51 }{ x } \frac { ( 3 x ^ { 2 } y ) ^ { - 1 } x ^ { 2 } z } { 3 y ^ { - 1 } } 7( \frac{ 11 }{ 20+7 } 3 < 2 x + 1 < 11 5 { x }^{ 2 } +12x-4 > 6 \int \sqrt { \tan ^ { 5 } x } \sec ^ { 4 } x d x = \left. \begin{array} { l } { A ^ {C} = B }\\ { \text{Solve for } a \text{ where} } \\ { a = C } \end{array} \right. 3 x + 2 x ^ { 2 } - x ^ { 3 } \frac{ x-120500 }{ x } = 0.02 5- { \left(x-4 \right) }^{ 2 } ( - 5 ) ^ { 3 } = 6.5 \times 4 19 \times 9 = \left. \begin{array} { l } { 3 t - 3 = 5 } \\ { 4 s - 37 = t } \end{array} \right. \lim _ { x \rightarrow 2 } \frac { \sqrt { x - 1 } - 1 } { \sqrt { x + 2 } - 2 } \lim _ { x \rightarrow 1 } \frac { \sqrt { x } - 1 } { x } ( n - 2 \sqrt { 2 } ) ( n + 2 \sqrt { 2 } ) 3 x = - \frac { 4 } { 3 } + \sqrt { 52 } = 1 f ( x ) = - 12.5 x ^ { 2 } + 1.375 x - 1.500 \frac{ 19 }{ 56 } - \frac{ 1 }{ 72 } - \frac{ 10 }{ 84 } + \frac{ 8 }{ 63 } == \frac { 1 } { 4 } { 8 }^{ \frac{ 2 }{ 3 } } 2 x - 5 = - 13 { \left( \frac{ 3 }{ 7 } \right) }^{ -2 } \theta = \frac { \sqrt { 3 } } { 2 } 5 ^ { - 1 } - \frac { 1 } { 2 } \int x \sqrt { 2 x + 1 } (15 \div 3.6)= ( n - 6 ) ( n - \frac { 1 } { 2 } ) { \left( \frac{ 15 }{ 3.6 } \right) }^{ 2 } 252 \cdot 3 38+2040000 \div 85000 a x ^ { 2 } + 3 x - 3 7 ( 4 x - 1 ) + 6 x > - 279 ? x ^ { 3 } y ^ { 4 } z ^ { 4 } , x ^ { 2 } y z ^ { 3 } , x ^ { 2 } y ^ { 2 } z ^ { 2 } y = - \frac{ 1 }{ 4 } -4 24 { x }^{ 2 } +16xy+8=84 2 ( y - 1 ) ^ { - 3 } + ( y + 3 ) = 5 ( y + 1 ) | - x ^ { 2 } + x - 1 | \leq 2 x + 5 x ^ { 2 } - 5 x + 3 y = 20 \frac { 2 } { 5 } \int{ x \sqrt{ 2x++1 } }d x \frac { 3 } { 4 } + \frac { 5 } { 6 } - \frac { 15 } { 12 } = 77 \div 4400 \left. \begin{array} { c } { x _ { 1 } + 2 x _ { 2 } - x _ { 3 } + 3 x _ { 4 } = 0 } \\ { 2 x _ { 1 } + 3 x _ { 2 } - x _ { 3 } + 2 x _ { 4 } = 0 } \\ { x _ { 1 } \quad + 3 x _ { 3 } + 3 x _ { 4 } = 0 } \end{array} \right. 949 - 2 = 3 x + 28 \leq 25 \left. \begin{array} { l } { \frac { x } { 3 } - \frac { y } { 2 } = 8 } \\ { \frac { x } { 5 } + \frac { y } { 3 } = 1 } \end{array} \right. [ \frac { ( f ^ { 3 } g ^ { - 8 } h ) ^ { 7 } } { ( g ^ { 5 } h ^ { - 3 } f ) ^ { - 8 } } ] ^ { 5 } 1 - \frac { x } { 4 } > 2 ( 1,53 \cdot 3 x-3+ \frac{ 4 }{ { x }^{ 2 } } =0 - x ^ { 2 } - x - 1 = 0 \frac{ 1 }{ 2 } \times \frac{ 5 }{ 4 } 949 \div 2 = ( 6 y ^ { 2 } - 8 y ^ { 3 } + 3 ) 7 y ^ { 5 } x ^ { 2 } - 3 x = y + 3 565 : 7 = x ^ { 2 } + 2 x - 15 \geq 0 \frac{ 2 }{ 5 } \times 3 \frac { 1 } { 9 } f ( x ) = \frac { 7 } { ( x ^ { 4 } - 5 x ^ { 3 } - 12 x ^ { 2 } + 36 x ) } ( + \frac { 1 } { 2 } ) + ( + \frac { 2 } { 3 } ) - ( - 1 \frac { 1 } { 6 } ) - 5 x ^ { 4 } y \frac { x - 2 } { 6 } \geq \frac { x - 1 } { 9 } + \frac { 7 } { 18 } ( + \frac { 1 } { 2 } ) - ( + \frac { 2 } { 3 } ) + ( - 1 \frac { 1 } { 6 } ) = \frac { 6 - x } { x - 2 } \leq \frac { 4 - x } { x + 2 } y = h ^ { - 1 } ( x ) 2 \cdot \pi ( \frac { x } { 2 } ) ^ { 2 } \cdot \sin ( x )
FAQs
What math problems does ChatGPT get wrong? ›
ChatGPT can get basic arithmetic wrong when the sequence is long enough. This is unprecedented. No computer in the world has ever gotten arithmetic wrong, no matter how long the equation. Our everyday calculator, the most basic form of a computer, will never get math wrong.
How accurate is ChatGPT at math? ›while ChatGPT may appear capable of solving simple arithmetic and some algebraic equations, it regularly fails with more complex math problems. This inability to solve math problems may seem paradoxical because our calculators and computers have been successfully helping us solve math problems for over 50 years.
Does ChatGPT actually do calculations? ›ChatGPT is an artificial intelligence chatbot developed by OpenAI. What makes ChatGPT unique is that it serves the public directly. Although ChatGPT works perfectly at analyzing situations, explaining things, and even writing you a sincere poem; this helpful chatbot is incapable of doing some basic math calculations.
Where can I find maths answers? ›- Mathway. Mathway calculator is a smart math problem solver which gives you a step by step solution to a math problem. ...
- Photomath. It is a smartphone application which is also known as a camera calculator. ...
- Microsoft Math Solver. ...
- Cymath. ...
- Snapcalc. ...
- Quick Math. ...
- Symbolab. ...
- Chegg Math Solver.
Jan 24, 2024
ChatGPT is not infallible; it can occasionally produce incorrect or misleading responses due to the vast amount of data it has learned from, which may contain inaccuracies or biases. However, OpenAI has implemented safety mechanisms and fine-tuning procedures to mitigate these issues and improve ChatGPT's accuracy.
Why is ChatGPT giving me wrong answers? ›Wright says he urges students as well as staff to double-check their work, as they have found that ChatGPT might scramble to find answers to information it does not have knowledge of. This leads to incorrect information and wrong answers being delivered to end-users.
Is ChatGPT good for math proofs? ›It performs particularly poorly on proof-based questions in the style of graduate-level exercises or mathematical olympiads, as well as more complicated symbolic calculations.
Can ChatGPT do trigonometry? ›The results show a high level of accuracy of ChatGPT in determining the values of trigonometric functions, especially for common angles. However, it is noted that accuracy may be affected in certain cases of extreme angles or complex questions.
How often does ChatGPT make mistakes? ›ChatGPT, OpenAI's fabulating chatbot, produces wrong answers to software programming questions more than half the time, according to a study from Purdue University. That said, the bot was convincing enough to fool a third of participants.
Can ChatGPT do calculus? ›Yes, it's possible with the right approach and tools. In this article, we'll explore how you can use ChatGPT and other techniques to accelerate your learning and become a calculus master in no time.
Can ChatGPT solve accounting problems? ›
ChatGPT is useful for many accounting tasks, like sorting transactions, calculating taxes, and predicting cash flow. It makes everyday accounting jobs easier.
Is ChatGPT like the calculator? ›ChatGPT and calculators are very different in terms of how they produce their output, as well as the reliability and validity of their output. Those should be enough for all academics to be very, very concerned about using ChatGPT in their work without subjecting it to far more critical analysis than it's received.
What math website gives you the answers? ›QuickMath will automatically answer the most common problems in algebra, equations and calculus faced by high-school and college students. The algebra section allows you to expand, factor or simplify virtually any expression you choose.
What app gives you answers for math? ›Photomath is known worldwide for helping millions of learners to learn, practice, and understand math – one step at a time. Scan any math problem with the Photomath app to get step-by-step explanations with accurate solutions and a variety of teacher-approved methods.
Is Microsoft math Solver free? ›All for free and now with a games section! HOW IT WORKS: Use your camera to scan the problem, write it out on our whiteboard, or enter it in our calculator.
Can ChatGPT do math proofs? ›ChatGPT 4.0, or any AI model, does not possess the innate ability to discover or prove new theorems autonomously. It lacks the creative and innovative thinking required for ground-breaking mathematical research.
Is ChatGPT ever wrong? ›According to OpenAI's official, they say ChatGPT (I mean GPT-4 or latest models) make mistakes at 7-8%. However, when I let ChatGPT to judge people's experience years or period, they make mistakes at 14-20%.
Did ChatGPT go from correctly answering a simple math problem 98% of the time to just 2%? ›ChatGPT went from correctly answering Math Problem 98% of the time to just 2% | Hacker News. "Similarly varying results happened when the researchers asked the models to write code and to do a visual reasoning test that asked the technology to predict the next figure in a pattern."